/*
 * Copyright (C) 2001-2005 FhG Fokus
 * Copyright (C) 2005 Voice Sistem SRL
 * Copyright (C) 2010 Daniel-Constantin Mierla (asipto.com)
 *
 * This file is part of Kamailio, a free SIP server.
 *
 * Kamailio is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version
 *
 * Kamailio is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 */


#include "../../core/qvalue.h"
#include "../../core/ut.h"
#include "../../core/route_struct.h"
#include "../../core/dset.h"
#include "../../core/flags.h"
#include "../../core/action.h"
#include "../../core/socket_info.h"
#include "../../core/data_lump.h"
#include "../../core/strutils.h"
#include "../../core/tcp_conn.h"
#include "../../core/pvapi.h"
#include "../../core/xavp.h"
#include "../../core/ppcfg.h"
#include "../../core/trim.h"
#include "../../core/msg_translator.h"
#include "../../core/cfg/cfg.h"
#include "../../core/cfg/cfg_ctx.h"

#include "../../core/parser/parse_from.h"
#include "../../core/parser/parse_uri.h"
#include "../../core/parser/parse_hname2.h"
#include "../../core/parser/parse_content.h"
#include "../../core/parser/parse_refer_to.h"
#include "../../core/parser/parse_rr.h"
#include "../../core/parser/parse_rpid.h"
#include "../../core/parser/parse_diversion.h"
#include "../../core/parser/parse_ppi_pai.h"
#include "../../core/parser/digest/digest.h"
#include "../../core/parser/contact/contact.h"
#include "../../core/parser/contact/parse_contact.h"
#include "../../core/parser/parse_expires.h"

#include "pv_core.h"
#include "pv_svar.h"

#include <string.h>
#include <stdlib.h>

static str str_udp = {"UDP", 3};
static str str_5060 = {"5060", 4};
static str str_5061 = {"5061", 4};
static str pv_str_1 = {"1", 1};
static str pv_uri_scheme[] = {{"none", 4}, {"sip", 3}, {"sips", 4}, {"tel", 3},
		{"tels", 4}, {"urn", 3}, {0, 0}};
static char _empty_str[] = "";

static str pv_af_list[] = {{"IPv4", 4}, {"IPv6", 4}, {0, 0}};
int _pv_pid = 0;

#define PV_FIELD_DELIM ", "
#define PV_FIELD_DELIM_LEN (sizeof(PV_FIELD_DELIM) - 1)

#define PV_HDR_DELIM ","
#define PV_HDR_DELIM_LEN (sizeof(PV_HDR_DELIM) - 1)

int pv_get_msgid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;
	return pv_get_uintval(msg, param, res, msg->id);
}

int pv_get_udp(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_strintval(msg, param, res, &str_udp, (int)PROTO_UDP);
}

int pv_get_5060(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_strintval(msg, param, res, &str_5060, 5060);
}

int pv_get_5061(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_strintval(msg, param, res, &str_5061, 5061);
}

int pv_get_true(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_intstrval(msg, param, res, 1, &pv_str_1);
}

/*extern int _last_returned_code;
int pv_get_return_code(struct sip_msg *msg, pv_param_t *param,
		pv_value_t *res)
{
	return pv_get_sintval(msg, param, res, _last_returned_code);
}
*/


int pv_get_pid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(_pv_pid == 0)
		_pv_pid = (int)getpid();
	return pv_get_sintval(msg, param, res, _pv_pid);
}


int pv_get_method(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REQUEST) {
		return pv_get_strintval(msg, param, res,
				&msg->first_line.u.request.method,
				(int)msg->first_line.u.request.method_value);
	}

	if(IS_HTTP_REPLY(msg))
		return pv_get_null(msg, param, res);

	if(msg->cseq == NULL
			&& ((parse_headers(msg, HDR_CSEQ_F, 0) == -1)
					|| (msg->cseq == NULL))) {
		LM_ERR("no CSEQ header\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strintval(
			msg, param, res, &get_cseq(msg)->method, get_cseq(msg)->method_id);
}

int pv_get_methodid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REQUEST) {
		return pv_get_uintval(msg, param, res,
				(unsigned int)msg->first_line.u.request.method_value);
	}

	if(msg->cseq == NULL
			&& ((parse_headers(msg, HDR_CSEQ_F, 0) == -1)
					|| (msg->cseq == NULL))) {
		LM_ERR("no CSEQ header\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_uintval(
			msg, param, res, (unsigned int)(get_cseq(msg)->method_id));
}

int pv_get_msgtype(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	unsigned int type = 0;

	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REQUEST)
		type = SIP_REQUEST; /* 1 */
	else if(msg->first_line.type == SIP_REPLY)
		type = SIP_REPLY; /* 2 */

	return pv_get_uintval(msg, param, res, type);
}

int pv_get_msgtypes(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	char *types = "xx";

	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REQUEST) {
		types = "rq";
	} else if(msg->first_line.type == SIP_REPLY) {
		types = "rp";
	}

	return pv_get_strzval(msg, param, res, types);
}

int pv_get_version(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REQUEST) {
		return pv_get_strval(
				msg, param, res, &msg->first_line.u.request.version);
	}

	return pv_get_strval(msg, param, res, &msg->first_line.u.reply.version);
}

int pv_get_status(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type != SIP_REPLY)
		return pv_get_null(msg, param, res);

	return pv_get_intstrval(msg, param, res,
			(int)msg->first_line.u.reply.statuscode,
			&msg->first_line.u.reply.status);
}

int pv_get_statusi(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type != SIP_REPLY)
		return pv_get_sintval(msg, param, res, 0);

	return pv_get_intstrval(msg, param, res,
			(int)msg->first_line.u.reply.statuscode,
			&msg->first_line.u.reply.status);
}

int pv_get_reason(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type != SIP_REPLY)
		return pv_get_null(msg, param, res);

	return pv_get_strval(msg, param, res, &msg->first_line.u.reply.reason);
}


int pv_get_ruri(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL || res == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY) /* REPLY doesn't have a ruri */
		return pv_get_null(msg, param, res);

	if(msg->parsed_uri_ok == 0 /* R-URI not parsed*/
			&& parse_sip_msg_uri(msg) < 0) {
		LM_ERR("failed to parse the R-URI\n");
		return pv_get_null(msg, param, res);
	}

	if(msg->new_uri.s != NULL)
		return pv_get_strval(msg, param, res, &msg->new_uri);
	return pv_get_strval(msg, param, res, &msg->first_line.u.request.uri);
}

int pv_get_ouri(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL || res == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY) /* REPLY doesn't have a ruri */
		return pv_get_null(msg, param, res);

	if(msg->parsed_orig_ruri_ok == 0
			/* orig R-URI not parsed*/
			&& parse_orig_ruri(msg) < 0) {
		LM_ERR("failed to parse the R-URI\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_strval(msg, param, res, &msg->first_line.u.request.uri);
}

int pv_get_xuri_attr(struct sip_msg *msg, struct sip_uri *parsed_uri,
		pv_param_t *param, pv_value_t *res)
{
	if(param->pvn.u.isname.name.n == 1) /* username */
	{
		if(parsed_uri->user.s == NULL || parsed_uri->user.len <= 0)
			return pv_get_null(msg, param, res);
		return pv_get_strval(msg, param, res, &parsed_uri->user);
	} else if(param->pvn.u.isname.name.n == 2) /* domain */ {
		if(parsed_uri->host.s == NULL || parsed_uri->host.len <= 0)
			return pv_get_null(msg, param, res);
		return pv_get_strval(msg, param, res, &parsed_uri->host);
	} else if(param->pvn.u.isname.name.n == 3) /* port */ {
		if(parsed_uri->port.s == NULL) {
			if(parsed_uri->proto == PROTO_TLS) {
				return pv_get_5061(msg, param, res);
			} else {
				return pv_get_5060(msg, param, res);
			}
		}
		return pv_get_strintval(
				msg, param, res, &parsed_uri->port, (int)parsed_uri->port_no);
	} else if(param->pvn.u.isname.name.n == 4) /* protocol */ {
		if(parsed_uri->transport_val.s == NULL)
			return pv_get_udp(msg, param, res);
		return pv_get_strintval(msg, param, res, &parsed_uri->transport_val,
				(int)parsed_uri->proto);
	} else if(param->pvn.u.isname.name.n == 5) /* uri scheme */ {
		return pv_get_strintval(msg, param, res,
				&pv_uri_scheme[parsed_uri->type], (int)parsed_uri->type);
	} else if(param->pvn.u.isname.name.n == 6) /* username length */ {
		if(parsed_uri->user.s == NULL || parsed_uri->user.len <= 0)
			return pv_get_sintval(msg, param, res, 0);
		return pv_get_sintval(msg, param, res, parsed_uri->user.len);
	}
	LM_ERR("unknown specifier\n");
	return pv_get_null(msg, param, res);
}

int pv_get_ruri_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY) /* REPLY doesn't have a ruri */
		return pv_get_null(msg, param, res);

	if(msg->parsed_uri_ok == 0 /* R-URI not parsed*/
			&& parse_sip_msg_uri(msg) < 0) {
		LM_ERR("failed to parse the R-URI\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_xuri_attr(msg, &(msg->parsed_uri), param, res);
}

int pv_get_ouri_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY) /* REPLY doesn't have a ruri */
		return pv_get_null(msg, param, res);

	if(msg->parsed_orig_ruri_ok == 0
			/* orig R-URI not parsed*/
			&& parse_orig_ruri(msg) < 0) {
		LM_ERR("failed to parse the R-URI\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_xuri_attr(msg, &(msg->parsed_orig_ruri), param, res);
}

int pv_get_errinfo_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_null(msg, param, res);
}

int pv_get_contact(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->contact == NULL && parse_headers(msg, HDR_CONTACT_F, 0) == -1) {
		LM_DBG("no contact header\n");
		return pv_get_null(msg, param, res);
	}

	if(!msg->contact || !msg->contact->body.s || msg->contact->body.len <= 0) {
		LM_DBG("no contact header!\n");
		return pv_get_null(msg, param, res);
	}

	//	res->s = ((struct to_body*)msg->contact->parsed)->uri.s;
	//	res->len = ((struct to_body*)msg->contact->parsed)->uri.len;
	return pv_get_strval(msg, param, res, &msg->contact->body);
}

int pv_get_xto_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res,
		struct to_body *xto, int type)
{
	struct sip_uri *uri;
	if(xto == NULL)
		return -1;

	if(param->pvn.u.isname.name.n == 1) /* uri */
		return pv_get_strval(msg, param, res, &xto->uri);

	if(param->pvn.u.isname.name.n == 4) /* tag */
	{
		if(xto->tag_value.s == NULL || xto->tag_value.len <= 0) {
			LM_DBG("no Tag parameter\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &xto->tag_value);
	}

	if(param->pvn.u.isname.name.n == 5) /* display name */
	{
		if(xto->display.s == NULL || xto->display.len <= 0) {
			LM_DBG("no Display name\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &xto->display);
	}

	if(type == 0) {
		if((uri = parse_to_uri(msg)) == NULL) {
			LM_ERR("cannot parse To URI\n");
			return pv_get_null(msg, param, res);
		}
	} else {
		if((uri = parse_from_uri(msg)) == NULL) {
			LM_ERR("cannot parse From URI\n");
			return pv_get_null(msg, param, res);
		}
	}

	if(param->pvn.u.isname.name.n == 2) /* username */
	{
		if(uri->user.s == NULL || uri->user.len <= 0) {
			LM_DBG("no username\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &uri->user);
	} else if(param->pvn.u.isname.name.n == 3) /* domain */ {
		if(uri->host.s == NULL || uri->host.len <= 0) {
			LM_DBG("no domain\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &uri->host);
	} else if(param->pvn.u.isname.name.n == 6) /* username length */ {
		if(uri->user.s == NULL || uri->user.len <= 0) {
			return pv_get_sintval(msg, param, res, 0);
		}
		return pv_get_sintval(msg, param, res, uri->user.len);
	}

	LM_ERR("unknown specifier\n");
	return pv_get_null(msg, param, res);
}

int pv_get_to_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->to == NULL && parse_headers(msg, HDR_TO_F, 0) == -1) {
		LM_ERR("cannot parse To header\n");
		return pv_get_null(msg, param, res);
	}
	if(msg->to == NULL || get_to(msg) == NULL) {
		LM_DBG("no To header\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_xto_attr(msg, param, res, get_to(msg), 0);
}

int pv_get_from_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(parse_from_header(msg) < 0) {
		LM_ERR("cannot parse From header\n");
		return pv_get_null(msg, param, res);
	}

	if(msg->from == NULL || get_from(msg) == NULL) {
		LM_DBG("no From header\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_xto_attr(msg, param, res, get_from(msg), 1);
}

int pv_get_cseq(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->cseq == NULL
			&& ((parse_headers(msg, HDR_CSEQ_F, 0) == -1)
					|| (msg->cseq == NULL))) {
		LM_ERR("cannot parse CSEQ header\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_strval(msg, param, res, &(get_cseq(msg)->number));
}

int pv_get_cseq_body(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->cseq == NULL
			&& ((parse_headers(msg, HDR_CSEQ_F, 0) == -1)
					|| (msg->cseq == NULL))) {
		LM_ERR("cannot parse CSEQ header\n");
		return pv_get_null(msg, param, res);
	}
	return pv_get_strval(msg, param, res, &msg->cseq->body);
}

int pv_get_msg_buf(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	s.s = msg->buf;
	s.len = msg->len;
	return pv_get_strval(msg, param, res, &s);
}


static str _ksr_pv_msg_buf_updated = STR_NULL;
int pv_get_msg_buf_updated(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	dest_info_t send_info;

	if(msg == NULL)
		return -1;

	if(_ksr_pv_msg_buf_updated.s != NULL) {
		pkg_free(_ksr_pv_msg_buf_updated.s);
		_ksr_pv_msg_buf_updated.s = NULL;
		_ksr_pv_msg_buf_updated.len = 0;
	}

	init_dest_info(&send_info);
	send_info.proto = PROTO_UDP;
	if(msg->first_line.type == SIP_REPLY) {
		_ksr_pv_msg_buf_updated.s = generate_res_buf_from_sip_res(msg,
				(unsigned int *)&_ksr_pv_msg_buf_updated.len,
				BUILD_NO_VIA1_UPDATE);
	} else if(msg->first_line.type == SIP_REQUEST) {
		_ksr_pv_msg_buf_updated.s = build_req_buf_from_sip_req(msg,
				(unsigned int *)&_ksr_pv_msg_buf_updated.len, &send_info,
				BUILD_NO_PATH | BUILD_NO_LOCAL_VIA | BUILD_NO_VIA1_UPDATE);
	} else {
		return pv_get_null(msg, param, res);
	}

	if(_ksr_pv_msg_buf_updated.s == NULL) {
		LM_ERR("couldn't update msg buffer content\n");
		_ksr_pv_msg_buf_updated.len = 0;
		return pv_get_null(msg, param, res);
	}
	return pv_get_strval(msg, param, res, &_ksr_pv_msg_buf_updated);
}

int pv_get_msg_len(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	return pv_get_uintval(msg, param, res, msg->len);
}

int pv_get_flags(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	return pv_get_uintval(msg, param, res, msg->flags);
}

int pv_get_flag(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(param->pvn.type != PV_NAME_INTSTR)
		return -1;

	return pv_get_uintval(msg, param, res,
			(msg->flags & (1 << param->pvn.u.isname.name.n)) ? 1 : 0);
}

static inline char *int_to_8hex(int sval)
{
	unsigned short digit;
	int i;
	static char outbuf[9];
	unsigned int uval;

	uval = (unsigned int)sval;
	outbuf[8] = '\0';
	for(i = 0; i < 8; i++) {
		if(uval != 0) {
			digit = uval & 0x0f;
			outbuf[7 - i] = digit >= 10 ? digit + 'a' - 10 : digit + '0';
			uval >>= 4;
		} else
			outbuf[7 - i] = '0';
	}
	return outbuf;
}


int pv_get_hexflags(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL || res == NULL)
		return -1;

	s.s = int_to_8hex(msg->flags);
	s.len = 8;
	return pv_get_strintval(msg, param, res, &s, (int)msg->flags);
}

int pv_get_bflags(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	flag_t flags;
	if(getbflagsval(0, &flags) < 0) {
		ERR("pv_get_bflags: Error while obtaining values of branch flags\n");
		return -1;
	}
	return pv_get_uintval(msg, param, res, flags);
}

int pv_get_bflag(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	flag_t flags;
	if(getbflagsval(0, &flags) < 0) {
		ERR("pv_get_bflags: Error while obtaining values of branch flags\n");
		return -1;
	}
	if(param->pvn.type != PV_NAME_INTSTR)
		return -1;

	return pv_get_uintval(msg, param, res,
			(flags & (1 << param->pvn.u.isname.name.n)) ? 1 : 0);
}

int pv_get_hexbflags(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	flag_t flags;
	str s;
	if(res == NULL)
		return -1;

	if(getbflagsval(0, &flags) < 0) {
		ERR("pv_get_hexbflags: Error while obtaining values of branch flags\n");
		return -1;
	}
	s.s = int_to_8hex((int)flags);
	s.len = 8;
	return pv_get_strintval(msg, param, res, &s, (int)flags);
}

int pv_get_sflags(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_uintval(msg, param, res, getsflags());
}

int pv_get_sflag(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)

{
	if(param->pvn.type != PV_NAME_INTSTR)
		return -1;

	return pv_get_uintval(msg, param, res,
			(getsflags() & (1 << param->pvn.u.isname.name.n)) ? 1 : 0);
}

int pv_get_hexsflags(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(res == NULL)
		return -1;

	s.s = int_to_8hex((int)getsflags());
	s.len = 8;
	return pv_get_strintval(msg, param, res, &s, (int)getsflags());
}

int pv_get_callid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->callid == NULL
			&& ((parse_headers(msg, HDR_CALLID_F, 0) == -1)
					|| (msg->callid == NULL))) {
		LM_ERR("cannot parse Call-Id header\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->callid->body);
}

int pv_get_srcip(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	s.s = ip_addr2a(&msg->rcv.src_ip);
	s.len = strlen(s.s);
	return pv_get_strval(msg, param, res, &s);
}

int pv_get_srcipz(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	s.s = ip_addr2strz(&msg->rcv.src_ip);
	s.len = strlen(s.s);
	return pv_get_strval(msg, param, res, &s);
}

int pv_get_srcport(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;
	return pv_get_uintval(msg, param, res, msg->rcv.src_port);
}

int pv_get_srcaddr_uri_helper(
		struct sip_msg *msg, pv_param_t *param, int tmode, pv_value_t *res)
{
	str uri;
	str sr;

	if(msg == NULL)
		return -1;

	if(get_src_uri(msg, tmode, &uri) < 0)
		return pv_get_null(msg, param, res);

	if(uri.len + 1 >= pv_get_buffer_size()) {
		LM_ERR("local buffer size exceeded\n");
		return pv_get_null(msg, param, res);
	}

	sr.s = pv_get_buffer();
	strncpy(sr.s, uri.s, uri.len);
	sr.len = uri.len;
	sr.s[sr.len] = '\0';

	return pv_get_strval(msg, param, res, &sr);
}

int pv_get_srcaddr_socket(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str ssock;
	str sr;

	if(msg == NULL)
		return -1;

	if(get_src_address_socket(msg, &ssock) < 0)
		return pv_get_null(msg, param, res);

	if(ssock.len + 1 >= pv_get_buffer_size()) {
		LM_ERR("local buffer size exceeded\n");
		return pv_get_null(msg, param, res);
	}

	sr.s = pv_get_buffer();
	strncpy(sr.s, ssock.s, ssock.len);
	sr.len = ssock.len;
	sr.s[sr.len] = '\0';

	return pv_get_strval(msg, param, res, &sr);
}

int pv_get_srcaddr_uri(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_srcaddr_uri_helper(msg, param, 0, res);
}

int pv_get_srcaddr_uri_full(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_srcaddr_uri_helper(msg, param, 1, res);
}

int pv_get_rcvip(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address == NULL
			|| msg->rcv.bind_address->address_str.s == NULL)
		return pv_get_null(msg, param, res);

	return pv_get_strval(msg, param, res, &msg->rcv.bind_address->address_str);
}

int pv_get_rcvport(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address == NULL
			|| msg->rcv.bind_address->port_no_str.s == NULL)
		return pv_get_null(msg, param, res);

	return pv_get_intstrval(msg, param, res,
			(int)msg->rcv.bind_address->port_no,
			&msg->rcv.bind_address->port_no_str);
}

int pv_get_rcvsname(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address == NULL
			|| msg->rcv.bind_address->sockname.s == NULL)
		return pv_get_null(msg, param, res);

	return pv_get_strval(msg, param, res, &msg->rcv.bind_address->sockname);
}

int pv_get_rcvaddr_uri_helper(
		struct sip_msg *msg, pv_param_t *param, int tmode, pv_value_t *res)
{
	str uri;
	str sr;

	if(msg == NULL)
		return -1;

	if(get_rcv_socket_uri(msg, tmode, &uri, 0) < 0)
		return pv_get_null(msg, param, res);

	if(uri.len + 1 >= pv_get_buffer_size()) {
		LM_ERR("local buffer size exceeded\n");
		return pv_get_null(msg, param, res);
	}

	sr.s = pv_get_buffer();
	strncpy(sr.s, uri.s, uri.len);
	sr.len = uri.len;
	sr.s[sr.len] = '\0';

	return pv_get_strval(msg, param, res, &sr);
}

int pv_get_rcvaddr_uri(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_rcvaddr_uri_helper(msg, param, 0, res);
}

int pv_get_rcvaddr_uri_full(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_rcvaddr_uri_helper(msg, param, 1, res);
}

int pv_get_rcvaddr_socket(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address == NULL
			|| msg->rcv.bind_address->sock_str.s == NULL) {
		return pv_get_null(msg, param, res);
	}
	return pv_get_strval(msg, param, res, &msg->rcv.bind_address->sock_str);
}

int pv_get_rcv_advertised_ip(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address != NULL
			&& msg->rcv.bind_address->useinfo.address_str.len > 0) {
		return pv_get_strval(
				msg, param, res, &msg->rcv.bind_address->useinfo.address_str);
	}

	return pv_get_rcvip(msg, param, res);
}

int pv_get_rcv_advertised_port(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address != NULL
			&& msg->rcv.bind_address->useinfo.port_no_str.len > 0) {
		return pv_get_intstrval(msg, param, res,
				(int)msg->rcv.bind_address->useinfo.port_no,
				&msg->rcv.bind_address->useinfo.port_no_str);
	}

	return pv_get_rcvport(msg, param, res);
}

int pv_get_rcvadv_uri_helper(
		struct sip_msg *msg, pv_param_t *param, int tmode, pv_value_t *res)
{
	str uri;
	str sr;

	if(msg == NULL)
		return -1;

	if(get_rcv_socket_uri(msg, tmode, &uri, 1) < 0)
		return pv_get_null(msg, param, res);

	if(uri.len + 1 >= pv_get_buffer_size()) {
		LM_ERR("local buffer size exceeded\n");
		return pv_get_null(msg, param, res);
	}

	sr.s = pv_get_buffer();
	strncpy(sr.s, uri.s, uri.len);
	sr.len = uri.len;
	sr.s[sr.len] = '\0';

	return pv_get_strval(msg, param, res, &sr);
}

int pv_get_rcvadv_uri(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address != NULL
			&& (msg->rcv.bind_address->useinfo.address_str.len > 0
					|| msg->rcv.bind_address->useinfo.port_no_str.len > 0)) {
		return pv_get_rcvadv_uri_helper(msg, param, 0, res);
	}

	return pv_get_rcvaddr_uri_helper(msg, param, 0, res);
}

int pv_get_rcvadv_uri_full(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->rcv.bind_address != NULL
			&& (msg->rcv.bind_address->useinfo.address_str.len > 0
					|| msg->rcv.bind_address->useinfo.port_no_str.len > 0)) {
		return pv_get_rcvadv_uri_helper(msg, param, 1, res);
	}

	return pv_get_rcvaddr_uri_helper(msg, param, 1, res);
}

/**
 *
 */
int pv_parse_af_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	switch(in->len) {
		case 2:
			if(strncmp(in->s, "id", 2) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else
				goto error;
			break;
		case 4:
			if(strncmp(in->s, "name", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else
				goto error;
			break;
		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV af key: %.*s\n", in->len, in->s);
	return -1;
}

/**
 *
 */
int pv_get_af(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL || param == NULL)
		return -1;

	switch(param->pvn.u.isname.name.n) {
		case 1:
			if(msg->rcv.bind_address->address.af == AF_INET6)
				return pv_get_strval(msg, param, res, &pv_af_list[1]);
			return pv_get_strval(msg, param, res, &pv_af_list[0]);
		default:
			return pv_get_uintval(
					msg, param, res, msg->rcv.bind_address->address.af);
	}
}

int pv_get_force_sock(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->force_send_socket == 0)
		return pv_get_null(msg, param, res);

	return pv_get_strval(msg, param, res, &msg->force_send_socket->sock_str);
}

int pv_get_force_sock_name(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL) {
		return -1;
	}

	if(msg->force_send_socket == 0
			|| msg->force_send_socket->sockname.s == NULL) {
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->force_send_socket->sockname);
}

int pv_get_force_sock_port(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->force_send_socket == 0)
		return pv_get_uintval(msg, param, res, 0);

	return pv_get_intstrval(msg, param, res,
			(int)msg->force_send_socket->port_no,
			&msg->force_send_socket->port_no_str);
}

int pv_get_useragent(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;
	if(msg->user_agent == NULL
			&& ((parse_headers(msg, HDR_USERAGENT_F, 0) == -1)
					|| (msg->user_agent == NULL))) {
		LM_DBG("no User-Agent header\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->user_agent->body);
}

int pv_get_refer_to(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(parse_refer_to_header(msg) == -1) {
		LM_DBG("no Refer-To header\n");
		return pv_get_null(msg, param, res);
	}

	if(msg->refer_to == NULL || get_refer_to(msg) == NULL)
		return pv_get_null(msg, param, res);

	return pv_get_strval(msg, param, res, &(get_refer_to(msg)->uri));
}

int pv_get_diversion(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str *val;
	str name;

	if(msg == NULL)
		return -1;

	if(parse_diversion_header(msg) == -1) {
		LM_DBG("no Diversion header\n");
		return pv_get_null(msg, param, res);
	}

	if(msg->diversion == NULL || get_diversion(msg) == NULL) {
		LM_DBG("no Diversion header\n");
		return pv_get_null(msg, param, res);
	}

	if(param->pvn.u.isname.name.n == 1) { /* uri */
		return pv_get_strval(msg, param, res, &(get_diversion(msg)->id->uri));
	}

	if(param->pvn.u.isname.name.n == 2) { /* reason param */
		name.s = "reason";
		name.len = 6;
		val = get_diversion_param(msg, &name);
		if(val) {
			return pv_get_strval(msg, param, res, val);
		} else {
			return pv_get_null(msg, param, res);
		}
	}

	if(param->pvn.u.isname.name.n == 3) { /* privacy param */
		name.s = "privacy";
		name.len = 7;
		val = get_diversion_param(msg, &name);
		if(val) {
			return pv_get_strval(msg, param, res, val);
		} else {
			return pv_get_null(msg, param, res);
		}
	}

	if(param->pvn.u.isname.name.n == 4) { /* counter param */
		name.s = "counter";
		name.len = 7;
		val = get_diversion_param(msg, &name);
		if(val) {
			return pv_get_strval(msg, param, res, val);
		} else {
			return pv_get_null(msg, param, res);
		}
	}

	LM_ERR("unknown diversion specifier\n");
	return pv_get_null(msg, param, res);
}

int pv_get_rpid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(parse_rpid_header(msg) == -1) {
		LM_DBG("no RPID header\n");
		return pv_get_null(msg, param, res);
	}

	if(msg->rpid == NULL || get_rpid(msg) == NULL)
		return pv_get_null(msg, param, res);

	return pv_get_strval(msg, param, res, &(get_rpid(msg)->uri));
}

int pv_get_ppi_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	int idxf;
	int idx;
	struct sip_uri *uri;
	p_id_body_t *ppi_body = NULL;
	to_body_t *ppi_uri = NULL;
	int i, cur_id;

	if(msg == NULL)
		return -1;

	if(parse_ppi_header(msg) < 0) {
		LM_DBG("no P-Preferred-Identity header\n");
		return pv_get_null(msg, param, res);
	}

	if(pv_get_spec_index(msg, param, &idx, &idxf) != 0) {
		LM_ERR("Invalid index\n");
		return -1;
	}

	if(idxf == PV_IDX_ALL) {
		LM_ERR("Unable to return 'all' PPI values\n");
		return -1;
	}

	ppi_body = get_ppi(msg);
	ppi_uri = &ppi_body->id[0];
	cur_id = 0;
	i = 0;
	while(i < idx) {
		cur_id++;
		if(cur_id < ppi_body->num_ids) {
			ppi_uri = &ppi_body->id[cur_id];
			i++;
		} else if(ppi_body->next != NULL) {
			ppi_body = ppi_body->next;
			ppi_uri = &ppi_body->id[0];
			cur_id = 0;
			i++;
		} else {
			/* No more PPIs */
			return pv_get_null(msg, param, res);
		}
	}
	/* Found the ID at index 'idx' */

	if(param->pvn.u.isname.name.n == 1) { /* uri */
		return pv_get_strval(msg, param, res, &(ppi_uri->uri));
	}

	if(param->pvn.u.isname.name.n == 4) { /* display name */
		if(ppi_uri->display.s == NULL || ppi_uri->display.len <= 0) {
			LM_DBG("no P-Preferred-Identity display name\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &(ppi_uri->display));
	}

	uri = &ppi_uri->parsed_uri;
	if(uri->host.s == NULL && uri->user.s == NULL) {
		if(parse_uri(ppi_uri->uri.s, ppi_uri->uri.len, uri) < 0) {
			LM_ERR("cannot parse P-Preferred-Identity URI\n");
			return pv_get_null(msg, param, res);
		}
	}

	if(param->pvn.u.isname.name.n == 2) { /* username */
		if(uri->user.s == NULL || uri->user.len <= 0) {
			LM_DBG("no P-Preferred-Identity username\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &uri->user);
	} else if(param->pvn.u.isname.name.n == 3) { /* domain */
		if(uri->host.s == NULL || uri->host.len <= 0) {
			LM_DBG("no P-Preferred-Identity domain\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &uri->host);
	}

	LM_ERR("unknown specifier\n");
	return pv_get_null(msg, param, res);
}


int pv_get_pai(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	int idxf;
	int idx;
	p_id_body_t *pai_body = NULL;
	to_body_t *pai_uri = NULL;
	int i, cur_id;

	if(msg == NULL)
		return -1;

	if(parse_pai_header(msg) < 0) {
		LM_DBG("no P-Asserted-Identity header\n");
		return pv_get_null(msg, param, res);
	}

	if(pv_get_spec_index(msg, param, &idx, &idxf) != 0) {
		LM_ERR("Invalid index\n");
		return -1;
	}

	if(idxf == PV_IDX_ALL) {
		LM_ERR("Unable to return 'all' PAI values\n");
		return -1;
	}

	pai_body = get_pai(msg);
	if(pai_body == NULL || pai_body->id == NULL) {
		LM_DBG("no P-Asserted-Identity header or empty body\n");
		return pv_get_null(msg, param, res);
	}
	pai_uri = &pai_body->id[0];
	cur_id = 0;
	i = 0;
	while(i < idx) {
		cur_id++;
		if(cur_id < pai_body->num_ids) {
			pai_uri = &pai_body->id[cur_id];
			i++;
		} else if(pai_body->next != NULL) {
			pai_body = pai_body->next;
			pai_uri = &pai_body->id[0];
			cur_id = 0;
			i++;
		} else {
			/* No more PAIs */
			return pv_get_null(msg, param, res);
		}
	}
	/* Found the ID at index 'idx' */

	return pv_get_strval(msg, param, res, &(pai_uri->uri));
}

/* proto of received message: $pr or $proto*/
int pv_get_proto(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	if(get_valid_proto_string(msg->rcv.proto, 0, 0, &s) < 0) {
		s.s = "none";
		s.len = 4;
	}

	return pv_get_strintval(msg, param, res, &s, (int)msg->rcv.proto);
}

/* proto id of received message */
int pv_get_protoid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	return pv_get_sintval(msg, param, res, (int)msg->rcv.proto);
}

int pv_get_dset(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	s.s = print_dset(msg, &s.len, 0);
	if(s.s == NULL)
		return pv_get_null(msg, param, res);
	s.len -= CRLF_LEN;
	return pv_get_strval(msg, param, res, &s);
}

int pv_get_dsturi(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->dst_uri.s == NULL) {
		LM_DBG("no destination URI\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->dst_uri);
}

int pv_get_dsturi_attr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	struct sip_uri uri;

	if(msg == NULL)
		return -1;

	if(msg->dst_uri.s == NULL) {
		LM_DBG("no destination URI\n");
		return pv_get_null(msg, param, res);
	}

	if(parse_uri(msg->dst_uri.s, msg->dst_uri.len, &uri) != 0) {
		LM_ERR("failed to parse dst uri\n");
		return pv_get_null(msg, param, res);
	}

	if(param->pvn.u.isname.name.n == 1) /* domain */
	{
		if(uri.host.s == NULL || uri.host.len <= 0)
			return pv_get_null(msg, param, res);
		return pv_get_strval(msg, param, res, &uri.host);
	} else if(param->pvn.u.isname.name.n == 2) /* port */ {
		if(uri.port.s == NULL || uri.port.len <= 0) {
			if(uri.proto == PROTO_TLS) {
				return pv_get_5061(msg, param, res);
			} else {
				return pv_get_5060(msg, param, res);
			}
		}
		return pv_get_strintval(msg, param, res, &uri.port, (int)uri.port_no);
	} else if(param->pvn.u.isname.name.n == 3) /* proto */ {
		if(uri.transport_val.s == NULL)
			return pv_get_udp(msg, param, res);
		return pv_get_strintval(
				msg, param, res, &uri.transport_val, (int)uri.proto);
	}

	LM_ERR("invalid specifier\n");
	return pv_get_null(msg, param, res);
}

int pv_get_content_type(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->content_type == NULL
			&& ((parse_headers(msg, HDR_CONTENTTYPE_F, 0) == -1)
					|| (msg->content_type == NULL))) {
		LM_DBG("no Content-Type header\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->content_type->body);
}


int pv_get_content_length(
		struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;
	if(msg->content_length == NULL
			&& ((parse_headers(msg, HDR_CONTENTLENGTH_F, 0) == -1)
					|| (msg->content_length == NULL))) {
		LM_DBG("no Content-Length header\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_intstrval(msg, param, res,
			(int)(long)msg->content_length->parsed, &msg->content_length->body);
}

int pv_get_msg_body(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	s.s = get_body(msg);

	if(s.s == NULL) {
		LM_DBG("no message body\n");
		return pv_get_null(msg, param, res);
	}
	s.len = msg->buf + msg->len - s.s;

	return pv_get_strval(msg, param, res, &s);
}


int pv_get_body_size(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	if(msg == NULL)
		return -1;

	s.s = get_body(msg);

	s.len = 0;
	if(s.s != NULL)
		s.len = msg->buf + msg->len - s.s;
	return pv_get_sintval(msg, param, res, s.len);
}


int pv_get_authattr(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	struct hdr_field *hdr;

	if(msg == NULL)
		return -1;

	if((msg->REQ_METHOD == METHOD_ACK) || (msg->REQ_METHOD == METHOD_CANCEL)) {
		LM_DBG("no [Proxy-]Authorization header\n");
		return pv_get_null(msg, param, res);
	}

	if((parse_headers(msg, HDR_PROXYAUTH_F | HDR_AUTHORIZATION_F, 0) == -1)
			|| (msg->proxy_auth == 0 && msg->authorization == 0)) {
		LM_DBG("no [Proxy-]Authorization header\n");
		return pv_get_null(msg, param, res);
	}

	hdr = (msg->proxy_auth == 0) ? msg->authorization : msg->proxy_auth;

	if(parse_credentials(hdr) != 0) {
		LM_ERR("failed to parse credentials\n");
		return pv_get_null(msg, param, res);
	}
	switch(param->pvn.u.isname.name.n) {
		case 10:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.opaque);
		case 9:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.response);
		case 8:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.cnonce);
		case 7:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.nonce);
		case 6:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.alg.alg_str);
		case 4:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.username.domain);
		case 3:
			if(((auth_body_t *)(hdr->parsed))->digest.uri.len == 0)
				return pv_get_null(msg, param, res);
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.uri);
			break;
		case 2:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.realm);
			break;
		case 1:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.username.user);
			break;
		default:
			return pv_get_strval(msg, param, res,
					&((auth_body_t *)(hdr->parsed))->digest.username.whole);
	}
}

static inline str *cred_user(struct sip_msg *rq)
{
	struct hdr_field *h;
	auth_body_t *cred;

	get_authorized_cred(rq->proxy_auth, &h);
	if(!h)
		get_authorized_cred(rq->authorization, &h);
	if(!h)
		return 0;
	cred = (auth_body_t *)(h->parsed);
	if(!cred || !cred->digest.username.user.len)
		return 0;
	return &cred->digest.username.user;
}


static inline str *cred_realm(struct sip_msg *rq)
{
	str *realm;
	struct hdr_field *h;
	auth_body_t *cred;

	get_authorized_cred(rq->proxy_auth, &h);
	if(!h)
		get_authorized_cred(rq->authorization, &h);
	if(!h)
		return 0;
	cred = (auth_body_t *)(h->parsed);
	if(!cred)
		return 0;
	realm = GET_REALM(&cred->digest);
	if(!realm->len || !realm->s) {
		return 0;
	}
	return realm;
}


int pv_get_acc_user(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str *user;
	struct sip_uri puri;
	struct to_body *from;

	/* try to take it from credentials */
	user = cred_user(msg);
	if(user) {
		return pv_get_strval(msg, param, res, user);
	}

	/* from from uri */
	if(parse_from_header(msg) < 0) {
		LM_ERR("cannot parse FROM header\n");
		return pv_get_null(msg, param, res);
	}
	if(msg->from && (from = get_from(msg)) && from->uri.len) {
		if(parse_uri(from->uri.s, from->uri.len, &puri) < 0) {
			LM_ERR("bad From URI\n");
			return pv_get_null(msg, param, res);
		}
		return pv_get_strval(msg, param, res, &(puri.user));
	}
	return pv_get_null(msg, param, res);
}


int pv_get_acc_username(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	static char buf[MAX_URI_SIZE];
	str *user;
	str *realm;
	struct sip_uri puri;
	struct to_body *from;
	str s;

	/* try to take it from credentials */
	user = cred_user(msg);
	if(user) {
		realm = cred_realm(msg);
		if(realm) {
			s.len = user->len + 1 + realm->len;
			if(s.len > MAX_URI_SIZE) {
				LM_ERR("uri too long\n");
				return pv_get_null(msg, param, res);
			}
			s.s = buf;
			memcpy(s.s, user->s, user->len);
			(s.s)[user->len] = '@';
			memcpy(s.s + user->len + 1, realm->s, realm->len);
			return pv_get_strval(msg, param, res, &s);
		}
		return pv_get_strval(msg, param, res, user);
	}

	/* from from uri */
	if(parse_from_header(msg) < 0) {
		LM_ERR("cannot parse FROM header\n");
		return pv_get_null(msg, param, res);
	}
	if(msg->from && (from = get_from(msg)) && from->uri.len) {
		if(parse_uri(from->uri.s, from->uri.len, &puri) < 0) {
			LM_ERR("bad From URI\n");
			return pv_get_null(msg, param, res);
		}
		s.len = puri.user.len + 1 + puri.host.len;
		if(s.len > MAX_URI_SIZE) {
			LM_ERR("from URI too long\n");
			return pv_get_null(msg, param, res);
		}
		s.s = buf;
		memcpy(s.s, puri.user.s, puri.user.len);
		(s.s)[puri.user.len] = '@';
		memcpy(s.s + puri.user.len + 1, puri.host.s, puri.host.len);
	} else {
		s.len = 0;
		s.s = 0;
	}
	return pv_get_strval(msg, param, res, &s);
}

int pv_get_branch(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str branch;
	qvalue_t q;

	if(msg == NULL || res == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY)
		return pv_get_null(msg, param, res);


	branch.s = get_branch(0, &branch.len, &q, 0, 0, 0, 0, 0, 0, 0);
	if(!branch.s) {
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &branch);
}

#define Q_PARAM ">;q="
#define Q_PARAM_LEN (sizeof(Q_PARAM) - 1)

int pv_get_branches(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	str uri;
	str s;
	qvalue_t q;
	int cnt, i;
	unsigned int qlen;
	char *p, *qbuf, *p_ini;

	if(msg == NULL || res == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY)
		return pv_get_null(msg, param, res);

	cnt = s.len = 0;

	while((uri.s = get_branch(cnt, &uri.len, &q, 0, 0, 0, 0, 0, 0, 0))) {
		cnt++;
		s.len += uri.len;
		if(q != Q_UNSPECIFIED) {
			s.len += 1 + Q_PARAM_LEN + len_q(q);
		}
	}

	if(cnt == 0)
		return pv_get_null(msg, param, res);

	s.len += (cnt - 1) * PV_FIELD_DELIM_LEN;
	if(s.len + 1 > pv_get_buffer_size()) {
		LM_ERR("local buffer length exceeded\n");
		return pv_get_null(msg, param, res);
	}

	i = 0;
	p_ini = pv_get_buffer();
	p = p_ini;

	while((uri.s = get_branch(i, &uri.len, &q, 0, 0, 0, 0, 0, 0, 0))) {
		if(i) {
			memcpy(p, PV_FIELD_DELIM, PV_FIELD_DELIM_LEN);
			p += PV_FIELD_DELIM_LEN;
		}

		if(q != Q_UNSPECIFIED) {
			*p++ = '<';
		}

		memcpy(p, uri.s, uri.len);
		p += uri.len;
		if(q != Q_UNSPECIFIED) {
			memcpy(p, Q_PARAM, Q_PARAM_LEN);
			p += Q_PARAM_LEN;

			qbuf = q2str(q, &qlen);
			memcpy(p, qbuf, qlen);
			p += qlen;
		}
		i++;
	}

	s.s = &(p_ini[0]);
	return pv_get_strval(msg, param, res, &s);
}

int pv_get_avp(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	unsigned short name_type;
	int_str avp_name;
	int_str avp_value;
	struct usr_avp *avp;
	int_str avp_value0;
	struct usr_avp *avp0;
	int idx;
	int idxf;
	char *p, *p_ini;
	int p_size;
	int n = 0;
	struct search_state state;

	if(msg == NULL || res == NULL || param == NULL)
		return -1;

	/* get the name */
	if(pv_get_avp_name(msg, param, &avp_name, &name_type) != 0) {
		LM_ERR("invalid name\n");
		return -1;
	}
	/* get the index */
	if(pv_get_spec_index(msg, param, &idx, &idxf) != 0) {
		LM_ERR("invalid index\n");
		return -1;
	}

	memset(&state, 0, sizeof(struct search_state));
	if((avp = search_first_avp(name_type, avp_name, &avp_value, &state)) == 0)
		return pv_get_null(msg, param, res);
	res->flags = PV_VAL_STR;
	if(idx == 0 && (idxf == PV_IDX_INT || idxf == PV_IDX_NONE)) {
		if(avp->flags & AVP_VAL_STR) {
			res->rs = avp_value.s;
		} else {
			res->rs.s = sint2str(avp_value.n, &res->rs.len);
			res->ri = avp_value.n;
			res->flags |= PV_VAL_INT | PV_TYPE_INT;
		}
		return 0;
	}
	if(idxf == PV_IDX_ALL) {
		p_ini = pv_get_buffer();
		p = p_ini;
		p_size = pv_get_buffer_size();
		do {
			if(p != p_ini) {
				if(p - p_ini + PV_FIELD_DELIM_LEN + 1 > p_size) {
					LM_ERR("local buffer length exceeded\n");
					return pv_get_null(msg, param, res);
				}
				memcpy(p, PV_FIELD_DELIM, PV_FIELD_DELIM_LEN);
				p += PV_FIELD_DELIM_LEN;
			}
			if(avp->flags & AVP_VAL_STR) {
				res->rs = avp_value.s;
			} else {
				res->rs.s = sint2str(avp_value.n, &res->rs.len);
			}

			if(p - p_ini + res->rs.len + 1 > p_size) {
				LM_ERR("local buffer length exceeded!\n");
				return pv_get_null(msg, param, res);
			}
			memcpy(p, res->rs.s, res->rs.len);
			p += res->rs.len;
		} while((avp = search_next_avp(&state, &avp_value)) != 0);
		res->rs.s = p_ini;
		res->rs.len = p - p_ini;
		return 0;
	}

	/* we have a numeric index */
	if(idx < 0) {
		n = 1;
		avp0 = avp;
		while((avp0 = search_next_avp(&state, &avp_value0)) != 0)
			n++;
		idx = -idx;
		if(idx > n) {
			LM_DBG("index out of range\n");
			return pv_get_null(msg, param, res);
		}
		idx = n - idx;
		if(idx == 0) {
			if(avp->flags & AVP_VAL_STR) {
				res->rs = avp_value.s;
			} else {
				res->rs.s = sint2str(avp_value.n, &res->rs.len);
				res->ri = avp_value.n;
				res->flags |= PV_VAL_INT | PV_TYPE_INT;
			}
			return 0;
		}
	}
	n = 0;
	while(n < idx && (avp = search_next_avp(&state, &avp_value)) != 0)
		n++;

	if(avp != 0) {
		if(avp->flags & AVP_VAL_STR) {
			res->rs = avp_value.s;
		} else {
			res->rs.s = sint2str(avp_value.n, &res->rs.len);
			res->ri = avp_value.n;
			res->flags |= PV_VAL_INT | PV_TYPE_INT;
		}
		return 0;
	}

	LM_DBG("index out of range\n");
	return pv_get_null(msg, param, res);
}

int pv_get_hdr_helper(sip_msg_t *msg, pv_param_t *param, pv_value_t *res,
		pv_value_t *tv, int idx, int idxf)
{
	struct hdr_field *hf;
	struct hdr_field *hf0;
	char *p, *p_ini;
	int n, p_size;

	/* we need to be sure we have parsed all headers */
	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_ERR("error parsing headers\n");
		return pv_get_null(msg, param, res);
	}

	for(hf = msg->headers; hf; hf = hf->next) {
		if(tv->flags == 0) {
			if(tv->ri == hf->type)
				break;
		} else {
			if(tv->rs.len == 1 && tv->rs.s[0] == '*')
				break;
			if(cmp_hdrname_str(&hf->name, &tv->rs) == 0)
				break;
		}
	}
	if(hf == NULL) {
		return pv_get_null(msg, param, res);
	}

	/* get the value */
	res->flags = PV_VAL_STR;
	if(idx == 0 && (idxf == PV_IDX_INT || idxf == PV_IDX_NONE)) {
		res->rs = hf->body;
		return 0;
	}
	if(idxf == PV_IDX_ALL) {
		p_ini = pv_get_buffer();
		p = p_ini;
		p_size = pv_get_buffer_size();
		do {
			if(p != p_ini) {
				if(p - p_ini + PV_FIELD_DELIM_LEN + 1 > p_size) {
					LM_ERR("local buffer length exceeded\n");
					return pv_get_null(msg, param, res);
				}
				memcpy(p, PV_HDR_DELIM, PV_HDR_DELIM_LEN);
				p += PV_HDR_DELIM_LEN;
			}
			if(p - p_ini + hf->body.len + 1 > p_size) {
				LM_ERR("local buffer length exceeded [%d/%d]!\n",
						(int)(p - p_ini + hf->body.len + 1), hf->body.len);
				return pv_get_null(msg, param, res);
			}
			memcpy(p, hf->body.s, hf->body.len);
			p += hf->body.len;
			/* next hf */
			for(hf = hf->next; hf; hf = hf->next) {
				if(tv->flags == 0) {
					if(tv->ri == hf->type)
						break;
				} else {
					if(tv->rs.len == 1 && tv->rs.s[0] == '*')
						break;
					if(cmp_hdrname_str(&hf->name, &tv->rs) == 0)
						break;
				}
			}
		} while(hf);
		res->rs.s = p_ini;
		res->rs.len = p - p_ini;
		return 0;
	}

	/* we have a numeric index */
	hf0 = 0;
	if(idx < 0) {
		n = 1;
		/* count headers */
		for(hf0 = hf->next; hf0; hf0 = hf0->next) {
			if(tv->flags == 0) {
				if(tv->ri == hf0->type)
					n++;
			} else {
				if(tv->rs.len == 1 && tv->rs.s[0] == '*') {
					n++;
				} else if(cmp_hdrname_str(&hf0->name, &tv->rs) == 0) {
					n++;
				}
			}
		}
		idx = -idx;
		if(idx > n) {
			LM_DBG("index out of range\n");
			return pv_get_null(msg, param, res);
		}
		idx = n - idx;
		if(idx == 0) {
			res->rs = hf->body;
			return 0;
		}
	}
	n = 0;
	while(n < idx) {
		for(hf0 = hf->next; hf0; hf0 = hf0->next) {
			if(tv->flags == 0) {
				if(tv->ri == hf0->type)
					n++;
			} else {
				if(tv->rs.len == 1 && tv->rs.s[0] == '*') {
					n++;
				} else if(cmp_hdrname_str(&hf0->name, &tv->rs) == 0) {
					n++;
				}
			}
			if(n == idx)
				break;
		}
		if(hf0 == NULL)
			break;
	}

	if(hf0 != 0) {
		res->rs = hf0->body;
		return 0;
	}

	LM_DBG("index out of range\n");
	return pv_get_null(msg, param, res);
}

/**
 *
 */
int pv_get_hdr(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	int idx;
	int idxf;
	pv_value_t tv = {0};
	hdr_field_t thdr = {0};

	if(msg == NULL || res == NULL || param == NULL)
		return -1;

	/* get the name */
	if(param->pvn.type == PV_NAME_PVAR) {
		if(pv_get_spec_name(msg, param, &tv) != 0
				|| (!(tv.flags & PV_VAL_STR))) {
			LM_ERR("invalid name\n");
			return -1;
		}
		parse_hname2_str(&tv.rs, &thdr);
		if(thdr.type == HDR_ERROR_T) {
			LM_ERR("error parsing header name [%.*s]\n", tv.rs.len, tv.rs.s);
			return pv_get_null(msg, param, res);
		}
		if(thdr.type != HDR_OTHER_T) {
			tv.flags = 0;
			tv.ri = thdr.type;
		}
	} else {
		if(param->pvn.u.isname.type == AVP_NAME_STR) {
			tv.flags = PV_VAL_STR;
			tv.rs = param->pvn.u.isname.name.s;
		} else {
			tv.flags = 0;
			tv.ri = param->pvn.u.isname.name.n;
		}
	}
	/* get the index */
	if(pv_get_spec_index(msg, param, &idx, &idxf) != 0) {
		LM_ERR("invalid index\n");
		return -1;
	}
	return pv_get_hdr_helper(msg, param, res, &tv, idx, idxf);
}

/**
 *
 */
int pv_get_hdrc(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	pv_value_t tv;
	struct hdr_field *hf;
	hdr_field_t thdr = {0};
	int hcount;

	if(msg == NULL || res == NULL || param == NULL)
		return -1;

	hcount = 0;

	/* get the name */
	if(param->pvn.type == PV_NAME_PVAR) {
		if(pv_get_spec_name(msg, param, &tv) != 0
				|| (!(tv.flags & PV_VAL_STR))) {
			LM_ERR("invalid name\n");
			return pv_get_sintval(msg, param, res, hcount);
		}
		parse_hname2_str(&tv.rs, &thdr);
		if(thdr.type == HDR_ERROR_T) {
			LM_ERR("error parsing header name [%.*s]\n", tv.rs.len, tv.rs.s);
			return pv_get_sintval(msg, param, res, 0);
		}
		if(thdr.type != HDR_OTHER_T) {
			tv.flags = 0;
			tv.ri = thdr.type;
		}
	} else {
		if(param->pvn.u.isname.type == AVP_NAME_STR) {
			tv.flags = PV_VAL_STR;
			tv.rs = param->pvn.u.isname.name.s;
		} else {
			tv.flags = 0;
			tv.ri = param->pvn.u.isname.name.n;
		}
	}
	/* we need to be sure we have parsed all headers */
	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_ERR("error parsing headers\n");
		return pv_get_sintval(msg, param, res, hcount);
	}


	for(hf = msg->headers; hf; hf = hf->next) {
		if(tv.flags == 0) {
			if(tv.ri == hf->type) {
				hcount++;
			}
		} else {
			if(cmp_hdrname_str(&hf->name, &tv.rs) == 0) {
				hcount++;
			}
		}
	}
	return pv_get_sintval(msg, param, res, hcount);
}

/**
 *
 */
int pv_get_hfl(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	int idx = 0;
	int idxf = 0;
	pv_value_t tv = {0};
	via_body_t *vb = NULL;
	rr_t *rrb = NULL;
	contact_t *cb = NULL;
	diversion_body_t *db = NULL;
	p_id_body_t *ppib = NULL;
	p_id_body_t *paib = NULL;
	hdr_field_t *hf = NULL;
	hdr_field_t thdr = {0};
	int n = 0;
	int ppi_header_count = 0;
	int pai_header_count = 0;
	int innerIndex = 0;
	str sval = STR_NULL;

	if(msg == NULL || res == NULL || param == NULL)
		return -1;

	/* get the name */
	if(param->pvn.type == PV_NAME_PVAR) {
		if(pv_get_spec_name(msg, param, &tv) != 0
				|| (!(tv.flags & PV_VAL_STR))) {
			LM_ERR("invalid name\n");
			return -1;
		}
		parse_hname2_str(&tv.rs, &thdr);
		if(thdr.type == HDR_ERROR_T) {
			LM_ERR("error parsing header name [%.*s]\n", tv.rs.len, tv.rs.s);
			return pv_get_null(msg, param, res);
		}
		if(thdr.type != HDR_OTHER_T) {
			tv.flags = 0;
			tv.ri = thdr.type;
		}
	} else {
		if(param->pvn.u.isname.type == AVP_NAME_STR) {
			tv.flags = PV_VAL_STR;
			tv.rs = param->pvn.u.isname.name.s;
		} else {
			tv.flags = 0;
			tv.ri = param->pvn.u.isname.name.n;
		}
	}
	/* get the index */
	if(pv_get_spec_index(msg, param, &idx, &idxf) != 0) {
		LM_ERR("invalid index\n");
		return -1;
	}
	if((tv.flags != 0) || (idxf == PV_IDX_ALL)) {
		return pv_get_hdr_helper(msg, param, res, &tv, idx, idxf);
	}
	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_DBG("failed to parse sip headers\n");
		return pv_get_null(msg, param, res);
	}

	res->flags = PV_VAL_STR;
	if((tv.flags == 0) && (tv.ri == HDR_VIA_T)) {
		if(msg->h_via1 == NULL) {
			LM_WARN("no Via header\n");
			return pv_get_null(msg, param, res);
		}
		if(idx < 0) {
			n = 1;
			/* count Via header bodies */
			for(hf = msg->h_via1; hf != NULL; hf = hf->next) {
				if(hf->type == HDR_VIA_T) {
					for(vb = (via_body_t *)hf->parsed; vb != NULL;
							vb = vb->next) {
						n++;
					}
				}
			}

			idx = -idx;
			if(idx > n) {
				LM_DBG("index out of range\n");
				return pv_get_null(msg, param, res);
			}
			idx = n - idx;
		}
		if(idx == 0) {
			vb = (via_body_t *)(msg->h_via1->parsed);
			sval.s = vb->name.s;
			sval.len = vb->bsize;
			trim(&sval);
			res->rs = sval;
			return 0;
		}
		n = 0;
		for(hf = msg->h_via1; hf != NULL; hf = hf->next) {
			if(hf->type == HDR_VIA_T) {
				for(vb = (via_body_t *)hf->parsed; vb != NULL; vb = vb->next) {
					if(n == idx) {
						sval.s = vb->name.s;
						sval.len = vb->bsize;
						trim(&sval);
						res->rs = sval;
						return 0;
					}
					n++;
				}
			}
		}
		LM_DBG("unexpected via index out of range\n");
		return pv_get_null(msg, param, res);
	}
	if((tv.flags == 0)
			&& (tv.ri == HDR_RECORDROUTE_T || tv.ri == HDR_ROUTE_T)) {
		if(tv.ri == HDR_RECORDROUTE_T) {
			hf = msg->record_route;
		} else {
			hf = msg->route;
		}
		if(hf == NULL) {
			LM_DBG("no %s header\n",
					(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
			return pv_get_null(msg, param, res);
		}

		if(idx < 0) {
			n = 1;
			/* count Record-Route/Route header bodies */
			for(; hf != NULL; hf = hf->next) {
				if(hf->type == tv.ri) {
					if(parse_rr(hf) == -1) {
						LM_ERR("failed parsing %s header\n",
								(tv.ri == HDR_ROUTE_T) ? "route"
													   : "record-route");
						return pv_get_null(msg, param, res);
					}
					for(rrb = (rr_t *)hf->parsed; rrb != NULL;
							rrb = rrb->next) {
						n++;
					}
				}
			}

			idx = -idx;
			if(idx > n) {
				LM_DBG("index out of %s headers range\n",
						(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
				return pv_get_null(msg, param, res);
			}
			idx = n - idx;
		}
		if(idx == 0) {
			if(tv.ri == HDR_RECORDROUTE_T) {
				hf = msg->record_route;
			} else {
				hf = msg->route;
			}
			if(parse_rr(hf) == -1) {
				LM_ERR("failed parsing %s header\n",
						(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
				return pv_get_null(msg, param, res);
			}
			rrb = (rr_t *)(hf->parsed);
			sval.s = rrb->nameaddr.name.s;
			sval.len = rrb->len;
			trim(&sval);
			res->rs = sval;
			return 0;
		}
		n = 0;
		if(tv.ri == HDR_RECORDROUTE_T) {
			hf = msg->record_route;
		} else {
			hf = msg->route;
		}
		for(; hf != NULL; hf = hf->next) {
			if(hf->type == tv.ri) {
				if(parse_rr(hf) == -1) {
					LM_ERR("failed parsing %s header\n",
							(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
					return pv_get_null(msg, param, res);
				}
				for(rrb = (rr_t *)hf->parsed; rrb != NULL; rrb = rrb->next) {
					if(n == idx) {
						sval.s = rrb->nameaddr.name.s;
						sval.len = rrb->len;
						trim(&sval);
						res->rs = sval;
						return 0;
					}
					n++;
				}
			}
		}
		LM_DBG("unexpected %s index out of range\n",
				(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
		return pv_get_null(msg, param, res);
	}

	if((tv.flags == 0) && (tv.ri == HDR_CONTACT_T)) {
		if(msg->contact == NULL) {
			LM_DBG("no Contact header\n");
			return pv_get_null(msg, param, res);
		}
		if(parse_contact_headers(msg) < 0) {
			LM_DBG("failed to parse Contact headers\n");
			return pv_get_null(msg, param, res);
		}
		if(idx < 0) {
			n = 1;
			/* count Contact header bodies */
			for(hf = msg->contact; hf != NULL; hf = hf->next) {
				if(hf->type == HDR_CONTACT_T) {
					for(cb = (((contact_body_t *)hf->parsed)->contacts);
							cb != NULL; cb = cb->next) {
						n++;
					}
				}
			}

			idx = -idx;
			if(idx > n) {
				LM_DBG("index out of range\n");
				return pv_get_null(msg, param, res);
			}
			idx = n - idx;
		}
		if(idx == 0) {
			cb = ((contact_body_t *)msg->contact->parsed)->contacts;
			if(cb != NULL) {
				sval.s = cb->name.s;
				sval.len = cb->len;
				trim(&sval);
				res->rs = sval;
				return 0;
			} else {
				LM_DBG("no contact addresses\n");
				return pv_get_null(msg, param, res);
			}
		}
		n = 0;
		for(hf = msg->contact; hf != NULL; hf = hf->next) {
			if(hf->type == HDR_CONTACT_T) {
				for(cb = (((contact_body_t *)hf->parsed)->contacts); cb != NULL;
						cb = cb->next) {
					if(n == idx) {
						sval.s = cb->name.s;
						sval.len = cb->len;
						trim(&sval);
						res->rs = sval;
						return 0;
					}
					n++;
				}
			}
		}
		LM_DBG("unexpected contact index out of range\n");
		return pv_get_null(msg, param, res);
	}

	if((tv.flags == 0) && (tv.ri == HDR_DIVERSION_T)) {
		if(msg->diversion == NULL) {
			LM_WARN("no Diversion header\n");
			return pv_get_null(msg, param, res);
		}

		if(parse_diversion_header(msg) < 0) {
			LM_WARN("failed to parse Diversion headers\n");
			return pv_get_null(msg, param, res);
		}

		db = (diversion_body_t *)msg->diversion->parsed;
		n = 0;

		while(db != NULL) {
			n += db->num_ids;
			db = db->next;
		}

		if(idx < 0) {
			idx = -idx;
			if(idx > n) {
				LM_WARN("index out of range\n");
				return pv_get_null(msg, param, res);
			}
			idx = n - idx;
		}

		n = 0;
		db = (diversion_body_t *)msg->diversion->parsed;
		/* loop through all parsed Diversion headers lists */
		while(db != NULL) {
			if(n + db->num_ids > idx) {
				/* Calculate the index within this specific list */
				int innerIndex = idx - n;

				/* Access the desired element within this list */
				sval.s = db->id[innerIndex].body.s;
				sval.len = db->id[innerIndex].body.len;
				trim(&sval);
				res->rs = sval;
				return 0;
			}

			/* Move to the next Diversion header list */
			n += db->num_ids;
			db = db->next;
		}
		LM_DBG("unexpected diversion index out of range\n");
		return pv_get_null(msg, param, res);
	}

	if((tv.flags == 0) && (tv.ri == HDR_PPI_T)) {
		if(msg->ppi == NULL) {
			LM_DBG("no PPI header\n");
			return pv_get_null(msg, param, res);
		}

		if(parse_ppi_header(msg) < 0) {
			LM_DBG("failed to parse PPI headers\n");
			return pv_get_null(msg, param, res);
		}

		ppib = (p_id_body_t *)msg->ppi->parsed;
		ppi_header_count = 0;

		while(ppib != NULL) {
			ppi_header_count += ppib->num_ids;
			ppib = ppib->next;
		}

		if(idx < 0) {
			idx = -idx;
			if(idx > ppi_header_count) {
				LM_DBG("index out of range\n");
				return pv_get_null(msg, param, res);
			}
			idx = ppi_header_count - idx;
		}

		n = 0;
		ppib = (p_id_body_t *)msg->ppi->parsed;
		/* loop through all parsed ppi headers lists */
		while(ppib != NULL) {
			if(n + ppib->num_ids > idx) {
				/* Calculate the index within this specific list */
				int innerIndex = idx - n;

				/* Access the desired element within this list */
				sval.s = ppib->id[innerIndex].body.s;
				sval.len = ppib->id[innerIndex].body.len;
				trim(&sval);
				res->rs = sval;
				return 0;
			}

			/* Move to the next ppi header list */
			n += ppib->num_ids;
			ppib = ppib->next;
		}
		LM_DBG("unexpected PPI index out of range\n");
		return pv_get_null(msg, param, res);
	}

	if((tv.flags == 0) && (tv.ri == HDR_PAI_T)) {
		if(msg->pai == NULL) {
			LM_DBG("no PAI header\n");
			return pv_get_null(msg, param, res);
		}

		if(parse_pai_header(msg) < 0) {
			LM_DBG("failed to parse PAI headers\n");
			return pv_get_null(msg, param, res);
		}

		paib = (p_id_body_t *)msg->pai->parsed;
		pai_header_count = 0;

		while(paib != NULL) {
			pai_header_count += paib->num_ids;
			paib = paib->next;
		}

		if(idx < 0) {
			idx = -idx;
			if(idx > pai_header_count) {
				LM_DBG("index out of range\n");
				return pv_get_null(msg, param, res);
			}
			idx = pai_header_count - idx;
		}

		n = 0;
		paib = (p_id_body_t *)msg->pai->parsed;
		/* loop through all parsed PAI headers lists */
		while(paib != NULL) {
			if(n + paib->num_ids > idx) {
				/* Calculate the index within this specific list */
				int innerIndex = idx - n;

				/* Access the desired element within this list */
				sval.s = paib->id[innerIndex].body.s;
				sval.len = paib->id[innerIndex].body.len;
				trim(&sval);
				res->rs = sval;
				return 0;
			}

			/* Move to the next PAI header list */
			n += paib->num_ids;
			paib = paib->next;
		}
		LM_DBG("unexpected PAI index out of range\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_hdr_helper(msg, param, res, &tv, idx, idxf);
}

/**
 *
 */
int pv_get_hflc(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	pv_value_t tv = {0};
	via_body_t *vb = NULL;
	rr_t *rrb = NULL;
	contact_t *cb = NULL;
	p_id_body_t *ppib = NULL;
	p_id_body_t *paib = NULL;
	hdr_field_t *hf = NULL;
	hdr_field_t thdr = {0};
	int n = 0;

	if(msg == NULL || res == NULL || param == NULL)
		return -1;

	/* get the name */
	if(param->pvn.type == PV_NAME_PVAR) {
		if(pv_get_spec_name(msg, param, &tv) != 0
				|| (!(tv.flags & PV_VAL_STR))) {
			LM_ERR("invalid name\n");
			return pv_get_sintval(msg, param, res, 0);
		}
		parse_hname2_str(&tv.rs, &thdr);
		if(thdr.type == HDR_ERROR_T) {
			LM_ERR("error parsing header name [%.*s]\n", tv.rs.len, tv.rs.s);
			return pv_get_sintval(msg, param, res, 0);
		}
		if(thdr.type != HDR_OTHER_T) {
			tv.flags = 0;
			tv.ri = thdr.type;
		}
	} else {
		if(param->pvn.u.isname.type == AVP_NAME_STR) {
			tv.flags = PV_VAL_STR;
			tv.rs = param->pvn.u.isname.name.s;
		} else {
			tv.flags = 0;
			tv.ri = param->pvn.u.isname.name.n;
		}
	}

	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_DBG("failed to parse sip headers\n");
		return pv_get_sintval(msg, param, res, 0);
	}

	if((tv.flags == 0) && (tv.ri == HDR_VIA_T)) {
		if(msg->h_via1 == NULL) {
			LM_WARN("no Via header\n");
			return pv_get_sintval(msg, param, res, 0);
		}
		/* count Via header bodies */
		for(hf = msg->h_via1; hf != NULL; hf = hf->next) {
			if(hf->type == HDR_VIA_T) {
				for(vb = (via_body_t *)hf->parsed; vb != NULL; vb = vb->next) {
					n++;
				}
			}
		}
		return pv_get_sintval(msg, param, res, n);
	}

	if((tv.flags == 0)
			&& (tv.ri == HDR_RECORDROUTE_T || tv.ri == HDR_ROUTE_T)) {
		if(tv.ri == HDR_RECORDROUTE_T) {
			hf = msg->record_route;
		} else {
			hf = msg->route;
		}
		if(hf == NULL) {
			LM_DBG("no %s header\n",
					(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
			return pv_get_sintval(msg, param, res, 0);
		}

		/* count Record-Route/Route header bodies */
		for(; hf != NULL; hf = hf->next) {
			if(hf->type == tv.ri) {
				if(parse_rr(hf) == -1) {
					LM_ERR("failed parsing %s header\n",
							(tv.ri == HDR_ROUTE_T) ? "route" : "record-route");
					return pv_get_sintval(msg, param, res, 0);
				}
				for(rrb = (rr_t *)hf->parsed; rrb != NULL; rrb = rrb->next) {
					n++;
				}
			}
		}
		return pv_get_sintval(msg, param, res, n);
	}

	if((tv.flags == 0) && (tv.ri == HDR_CONTACT_T)) {
		if(msg->contact == NULL) {
			LM_DBG("no Contact header\n");
			return pv_get_sintval(msg, param, res, 0);
		}
		if(parse_contact_headers(msg) < 0) {
			LM_DBG("failed to parse Contact headers\n");
			return pv_get_sintval(msg, param, res, 0);
		}

		/* count Contact header bodies */
		for(hf = msg->contact; hf != NULL; hf = hf->next) {
			if(hf->type == HDR_CONTACT_T) {
				for(cb = (((contact_body_t *)hf->parsed)->contacts); cb != NULL;
						cb = cb->next) {
					n++;
				}
			}
		}
		return pv_get_sintval(msg, param, res, n);
	}

	if((tv.flags == 0) && (tv.ri == HDR_DIVERSION_T)) {
		if(msg->diversion == NULL) {
			LM_DBG("no Diversion header\n");
			return pv_get_sintval(msg, param, res, 0);
		}
		if(parse_diversion_header(msg) < 0) {
			LM_DBG("failed to parse Diversion headers\n");
			return pv_get_sintval(msg, param, res, 0);
		}

		diversion_body_t *db = (diversion_body_t *)msg->diversion->parsed;
		int diversion_body_count = 0;
		while(db != NULL) {
			diversion_body_count += db->num_ids;
			db = db->next;
		}
		return pv_get_sintval(msg, param, res, diversion_body_count);
	}

	if((tv.flags == 0) && (tv.ri == HDR_PPI_T)) {
		if(msg->ppi == NULL) {
			LM_DBG("no PPI header\n");
			return pv_get_sintval(msg, param, res, 0);
		}

		if(parse_ppi_header(msg) < 0) {
			LM_DBG("failed to parse PPI headers\n");
			return pv_get_sintval(msg, param, res, 0);
		}

		ppib = (p_id_body_t *)msg->ppi->parsed;
		n = 0;
		while(ppib != NULL) {
			n += ppib->num_ids;
			ppib = ppib->next;
		}
		return pv_get_sintval(msg, param, res, n);
	}

	if((tv.flags == 0) && (tv.ri == HDR_PAI_T)) {
		if(msg->pai == NULL) {
			LM_DBG("no PAI header\n");
			return pv_get_sintval(msg, param, res, 0);
		}
		if(parse_pai_header(msg) < 0) {
			LM_DBG("failed to parse PAI headers\n");
			return pv_get_sintval(msg, param, res, 0);
		}

		paib = (p_id_body_t *)msg->pai->parsed;
		n = 0;
		while(paib != NULL) {
			n += paib->num_ids;
			paib = paib->next;
		}
		return pv_get_sintval(msg, param, res, n);
	}

	for(hf = msg->headers; hf; hf = hf->next) {
		if(tv.flags == 0) {
			if(tv.ri == hf->type) {
				n++;
			}
		} else {
			if(cmp_hdrname_str(&hf->name, &tv.rs) == 0) {
				n++;
			}
		}
	}
	return pv_get_sintval(msg, param, res, n);
}

/**
 *
 */
int pv_get_scriptvar(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	int ival = 0;
	char *sval = NULL;
	script_var_t *sv = NULL;

	if(msg == NULL || res == NULL)
		return -1;

	if(param == NULL || param->pvn.u.dname == 0)
		return pv_get_null(msg, param, res);

	sv = (script_var_t *)param->pvn.u.dname;

	if((sv->v.flags & VAR_TYPE_NULL) && (sv->v.flags & VAR_VAL_NULL))
		return pv_get_null(msg, param, res);

	if(sv->v.flags & VAR_VAL_STR) {
		res->rs = sv->v.value.s;
		res->flags = PV_VAL_STR;
	} else {
		sval = sint2str(sv->v.value.n, &ival);

		res->rs.s = sval;
		res->rs.len = ival;

		res->ri = sv->v.value.n;
		res->flags = PV_VAL_STR | PV_VAL_INT | PV_TYPE_INT;
	}
	return 0;
}

int pv_get_server_id(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	return pv_get_sintval(msg, param, res, server_id);
}

int pv_get_cnt(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	int_str avp_name;
	unsigned short avp_type = 0;
	avp_search_state_t state;
	pv_spec_t *pv = NULL;
	unsigned int n = 0;
	avp_t *avp;

	pv = (pv_spec_t *)param->pvn.u.dname;
	if(pv == NULL)
		return pv_get_null(msg, param, res);

	switch(pv->type) {
		case PVT_AVP:
			if(pv_get_avp_name(0, &pv->pvp, &avp_name, &avp_type) != 0) {
				LM_ERR("invalid AVP definition\n");
				return pv_get_null(msg, param, res);
			}
			avp = search_first_avp(avp_type, avp_name, NULL, &state);
			while(avp) {
				n++;
				avp = search_next_avp(&state, NULL);
			}
			break;

		case PVT_XAVP: {
			/* Usage:
			 *
			 * $cnt($xavp(key[*])) : number of XAVPs "key".
			 * $cnt($xavp(key[n]=>sub[*])) : number of children "sub" in XAVP "key[n]".
			 * $cnt($xavp(key[*]=>sub[*])) : total number of children "sub" in all XAVPs "key".
			 *
			 * $cnt($xavp(key[n])) : 1 or 0 (if this index exists or not).
			 * $cnt($xavp(key[-n])) : same but with reverse indexing (-1 is the last index).
			 *
			 * $cnt($xavp(key[*]=>sub[n] : number of children "sub[n]" that exist in all XAPVs "key".
			 *
			 * $cnt($xavp(key)) is the same as $cnt($xavp(key[*])).
			 * $cnt($xavp(key=>sub)) is the same as $cnt($xavp(key[*]=>sub[*])).
			 *
			 * Note: Usually for a XAVP no index means "index 0", not all.
			 * But this would be less intuitive in our case for counting.
			 */
			pv_xavp_name_t *xname, *xname_sub;
			sr_xavp_t *ravp, *sub_avp;
			int root_idxf, root_idx_spec, root_idx;
			int sub_idxf, sub_idx_spec, sub_idx;
			int count;

			xname = pv->pvp.pvn.u.dname;
			if(xname == NULL) {
				LM_ERR("invalid XAVP definition\n");
				return pv_get_null(msg, param, res);
			}
			xname_sub = xname->next; /* NULL if no sub-key is provided */

			/* No index or index * means: count all entries */
			int root_all = 1;
			if(xname->index.type == PVT_EXTRA) {
				/* Get root index */
				if(pv_get_spec_index(
						   msg, &xname->index.pvp, &root_idx_spec, &root_idxf)
						!= 0) {
					LM_ERR("invalid XAVP root index\n");
					return pv_get_null(msg, param, res);
				}
				if(!(root_idxf == PV_IDX_ALL))
					root_all = 0;
			}
			if(!root_all) {
				/* Fix root index (if negative) */
				if(root_idx_spec >= 0) {
					root_idx = root_idx_spec;
				} else {
					count = xavp_count(&xname->name, NULL);
					root_idx = count + root_idx_spec;
				}
				ravp = xavp_get_by_index(&xname->name, root_idx, NULL);
			}

			if(xname_sub == NULL) {
				/* No XAVP sub-key */
				if(root_all) {
					/* Count all root XAVP */
					n = xavp_count(&xname->name, NULL);
				} else {
					/* Check if specific root XAVP index exists */
					if(ravp)
						n = 1;
				}

			} else {
				/* Having a XAVP sub-key */
				/* No index or index * means: count all entries */
				int sub_all = 1;
				if(xname_sub->index.type == PVT_EXTRA) {
					/* Get sub index */
					if(pv_get_spec_index(msg, &xname_sub->index.pvp,
							   &sub_idx_spec, &sub_idxf)
							!= 0) {
						LM_ERR("invalid XAVP sub index\n");
						return pv_get_null(msg, param, res);
					}
					if(!(sub_idxf == PV_IDX_ALL))
						sub_all = 0;
				}

				if(!root_all) {
					/* If the root XAVP value is not of type XAVP then nothing to count */
					if(ravp && ravp->val.type == SR_XTYPE_XAVP) {
						if(sub_all) {
							/* Count all sub XAVP within root XAVP */
							n = xavp_count(&xname_sub->name, &ravp->val.v.xavp);
						} else {
							/* Check if specific sub XAVP index exists within root XAVP */
							/* Fix sub index (if negative) */
							if(sub_idx_spec >= 0) {
								sub_idx = sub_idx_spec;
							} else {
								count = xavp_count(
										&xname_sub->name, &ravp->val.v.xavp);
								sub_idx = count + sub_idx_spec;
							}
							sub_avp = xavp_get_by_index(&xname_sub->name,
									sub_idx, &ravp->val.v.xavp);
							if(sub_avp)
								n = 1;
						}
					}

				} else {
					/* Iterate on root XAVP. For each, count the sub XAVP. */
					ravp = xavp_get(&xname->name, NULL);
					while(ravp) {
						/* If the root XAVP value is not of type XAVP then nothing to count */
						if(ravp->val.type == SR_XTYPE_XAVP) {
							if(sub_all) {
								/* Count all sub XAVP within root XAVP */
								n += xavp_count(
										&xname_sub->name, &ravp->val.v.xavp);
							} else {
								/* Check if specific sub XAVP index exists within root XAVP */
								/* Fix sub index (if negative) */
								if(sub_idx_spec >= 0) {
									sub_idx = sub_idx_spec;
								} else {
									count = xavp_count(&xname_sub->name,
											&ravp->val.v.xavp);
									sub_idx = count + sub_idx_spec;
								}
								sub_avp = xavp_get_by_index(&xname_sub->name,
										sub_idx, &ravp->val.v.xavp);
								if(sub_avp)
									n += 1;
							}
						}
						ravp = xavp_get_next(ravp);
					}
				}
			}
		} break;

		default:
			LM_ERR("invalid type: neither AVP nor XAVP\n");
			return pv_get_null(msg, param, res);
	}

	return pv_get_uintval(msg, param, res, n);
}

int pv_get_ruid(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY)
		return pv_get_null(msg, param, res);

	if(msg->ruid.len == 0) {
		LM_DBG("no ruid\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->ruid);
}

int pv_get_location_ua(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	if(msg == NULL)
		return -1;

	if(msg->first_line.type == SIP_REPLY)
		return pv_get_null(msg, param, res);

	if(msg->location_ua.len == 0) {
		LM_DBG("no location_ua\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_strval(msg, param, res, &msg->location_ua);
}

int pv_get_tcpconn_id(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	struct tcp_connection *con;
	int conid;

	if(msg == NULL)
		return -1;

	if((con = tcpconn_get(msg->rcv.proto_reserved1, 0, 0, 0, 0)) == NULL)
		return pv_get_null(msg, param, res);

	conid = con->id;
	tcpconn_put(con);

	return pv_get_sintval(msg, param, res, conid);
}


/********* end PV get functions *********/

/********* start PV set functions *********/
int pv_set_avp(struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	int_str avp_name;
	int_str avp_val;
	int flags;
	unsigned short name_type;
	int idxf;
	int idx;

	if(param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	/* get the name */
	if(pv_get_avp_name(msg, param, &avp_name, &name_type) != 0) {
		LM_ALERT("BUG in getting dst AVP name\n");
		goto error;
	}
	/* get the index */
	if(pv_get_spec_index(msg, param, &idx, &idxf) != 0) {
		LM_ERR("invalid index\n");
		return -1;
	}

	if((val == NULL) || (val->flags & PV_VAL_NULL)) {
		if(idxf == PV_IDX_ALL)
			destroy_avps(name_type, avp_name, 1);
		else
			destroy_avps(name_type, avp_name, 0);
		return 0;
	}
	if(idxf == PV_IDX_ALL)
		destroy_avps(name_type, avp_name, 1);
	flags = name_type;
	if(val->flags & PV_TYPE_INT) {
		avp_val.n = val->ri;
	} else {
		avp_val.s = val->rs;
		flags |= AVP_VAL_STR;
	}
	if(add_avp(flags, avp_name, avp_val) < 0) {
		LM_ERR("error - cannot add AVP\n");
		goto error;
	}
	return 0;
error:
	return -1;
}

int pv_set_scriptvar(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	int_str avp_val;
	int flags;

	if(param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(param->pvn.u.dname == 0) {
		LM_ERR("error - cannot find svar\n");
		goto error;
	}
	if((val == NULL) || (val->flags & PV_VAL_NULL)) {
		if(((script_var_t *)param->pvn.u.dname)->v.flags & VAR_TYPE_NULL) {
			set_var_value((script_var_t *)param->pvn.u.dname, NULL, 0);
		} else {
			avp_val.n = 0;
			set_var_value((script_var_t *)param->pvn.u.dname, &avp_val, 0);
		}
		return 0;
	}
	flags = 0;
	if(val->flags & PV_TYPE_INT) {
		avp_val.n = val->ri;
	} else {
		avp_val.s = val->rs;
		flags |= VAR_VAL_STR;
	}
	if(set_var_value((script_var_t *)param->pvn.u.dname, &avp_val, flags)
			== NULL) {
		LM_ERR("error - cannot set svar [%.*s] \n",
				((script_var_t *)param->pvn.u.dname)->name.len,
				((script_var_t *)param->pvn.u.dname)->name.s);
		goto error;
	}
	return 0;
error:
	return -1;
}

int pv_set_dsturi(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if((val == NULL) || (val->flags & PV_VAL_NULL)) {
		reset_dst_uri(msg);
		return 1;
	}
	if(!(val->flags & PV_VAL_STR)) {
		LM_ERR("error - str value required to set dst uri\n");
		goto error;
	}

	if(set_dst_uri(msg, &val->rs) != 0)
		goto error;
	/* dst_uri changed, so it makes sense to re-use the current uri for
		forking */
	ruri_mark_new(); /* re-use uri for serial forking */

	return 0;
error:
	return -1;
}

int pv_set_ruri(struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	struct action act;
	struct run_act_ctx h;
	char backup;

	if(msg == NULL || param == NULL || val == NULL
			|| (val->flags & PV_VAL_NULL)) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(!(val->flags & PV_VAL_STR)) {
		LM_ERR("str value required to set R-URI\n");
		goto error;
	}

	memset(&act, 0, sizeof(act));
	act.val[0].type = STRING_ST;
	act.val[0].u.string = val->rs.s;
	STR_VTOZ(val->rs.s[val->rs.len], backup);
	act.type = SET_URI_T;
	init_run_actions_ctx(&h);
	if(do_action(&h, &act, msg) < 0) {
		LM_ERR("do action failed\n");
		STR_ZTOV(val->rs.s[val->rs.len], backup);
		goto error;
	}
	STR_ZTOV(val->rs.s[val->rs.len], backup);

	return 0;
error:
	return -1;
}

int pv_set_ruri_user(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	struct action act;
	struct run_act_ctx h;
	char backup;

	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if((val == NULL) || (val->flags & PV_VAL_NULL)
			|| ((val->flags & PV_VAL_STR) && val->rs.len <= 0)) {
		memset(&act, 0, sizeof(act));
		act.type = SET_USER_T;
		act.val[0].type = STRING_ST;
		act.val[0].u.string = _empty_str;
		init_run_actions_ctx(&h);
		if(do_action(&h, &act, msg) < 0) {
			LM_ERR("do action failed)\n");
			goto error;
		}
		return 0;
	}

	if(!(val->flags & PV_VAL_STR)) {
		LM_ERR("str value required to set R-URI user\n");
		goto error;
	}

	memset(&act, 0, sizeof(act));
	act.val[0].type = STRING_ST;
	act.val[0].u.string = val->rs.s;
	STR_VTOZ(val->rs.s[val->rs.len], backup);
	act.type = SET_USER_T;
	init_run_actions_ctx(&h);
	if(do_action(&h, &act, msg) < 0) {
		LM_ERR("do action failed\n");
		STR_ZTOV(val->rs.s[val->rs.len], backup);
		goto error;
	}
	STR_ZTOV(val->rs.s[val->rs.len], backup);

	return 0;
error:
	return -1;
}

int pv_set_ruri_host(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	struct action act;
	struct run_act_ctx h;
	char backup;

	if(msg == NULL || param == NULL || val == NULL
			|| (val->flags & PV_VAL_NULL)) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(!(val->flags & PV_VAL_STR)) {
		LM_ERR("str value required to set R-URI hostname\n");
		goto error;
	}

	memset(&act, 0, sizeof(act));
	act.val[0].type = STRING_ST;
	act.val[0].u.string = val->rs.s;
	STR_VTOZ(val->rs.s[val->rs.len], backup);
	act.type = SET_HOST_T;
	init_run_actions_ctx(&h);
	if(do_action(&h, &act, msg) < 0) {
		LM_ERR("do action failed\n");
		STR_ZTOV(val->rs.s[val->rs.len], backup);
		goto error;
	}
	STR_ZTOV(val->rs.s[val->rs.len], backup);

	return 0;
error:
	return -1;
}

int pv_set_ruri_port(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	struct action act;
	struct run_act_ctx h;
	char backup;

	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		memset(&act, 0, sizeof(act));
		act.type = SET_PORT_T;
		act.val[0].type = STRING_ST;
		act.val[0].u.string = _empty_str;
		init_run_actions_ctx(&h);
		if(do_action(&h, &act, msg) < 0) {
			LM_ERR("do action failed)\n");
			goto error;
		}
		return 0;
	}

	if(!(val->flags & PV_VAL_STR)) {
		val->rs.s = int2str(val->ri, &val->rs.len);
		val->flags |= PV_VAL_STR;
	}

	memset(&act, 0, sizeof(act));
	act.val[0].type = STRING_ST;
	act.val[0].u.string = val->rs.s;
	STR_VTOZ(val->rs.s[val->rs.len], backup);
	act.type = SET_PORT_T;
	init_run_actions_ctx(&h);
	if(do_action(&h, &act, msg) < 0) {
		LM_ERR("do action failed\n");
		STR_ZTOV(val->rs.s[val->rs.len], backup);
		goto error;
	}
	STR_ZTOV(val->rs.s[val->rs.len], backup);

	return 0;
error:
	return -1;
}

int pv_set_branch(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL || val == NULL
			|| (val->flags & PV_VAL_NULL)) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(!(val->flags & PV_VAL_STR) || val->rs.len <= 0) {
		LM_ERR("str value required to set the branch\n");
		goto error;
	}

	if(km_append_branch(
			   msg, &val->rs, 0, 0, Q_UNSPECIFIED, 0, msg->force_send_socket)
			!= 1) {
		LM_ERR("append_branch action failed\n");
		goto error;
	}

	return 0;
error:
	return -1;
}

int pv_set_force_sock(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	struct socket_info *si;
	int port, proto;
	str host;
	char backup;

	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		reset_force_socket(msg);
		return 0;
	}

	if(!(val->flags & PV_VAL_STR) || val->rs.len <= 0) {
		LM_ERR("str value required to set the force send sock\n");
		goto error;
	}

	STR_VTOZ(val->rs.s[val->rs.len], backup);
	if(parse_phostport(val->rs.s, &host.s, &host.len, &port, &proto) < 0) {
		LM_ERR("invalid socket specification\n");
		STR_ZTOV(val->rs.s[val->rs.len], backup);
		goto error;
	}
	STR_ZTOV(val->rs.s[val->rs.len], backup);
	LM_DBG("trying to set send-socket to [%.*s]\n", val->rs.len, val->rs.s);
	si = grep_sock_info(&host, (unsigned short)port, (unsigned short)proto);
	if(si != NULL) {
		set_force_socket(msg, si);
	} else {
		LM_WARN("no socket found to match [%.*s]\n", val->rs.len, val->rs.s);
	}

	return 0;
error:
	return -1;
}

int pv_set_force_sock_name(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	struct socket_info *si;

	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		reset_force_socket(msg);
		return 0;
	}

	if(!(val->flags & PV_VAL_STR) || val->rs.len <= 0) {
		LM_ERR("str value required to set the force send sock\n");
		goto error;
	}

	LM_DBG("trying to set send-socket to name [%.*s]\n", val->rs.len,
			val->rs.s);
	si = ksr_get_socket_by_name(&val->rs);
	if(si != NULL) {
		set_force_socket(msg, si);
	} else {
		LM_WARN("no socket found to match name [%.*s]\n", val->rs.len,
				val->rs.s);
	}

	return 0;
error:
	return -1;
}

int pv_set_mflags(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		msg->flags = 0;
		return 0;
	}

	if(!(val->flags & PV_VAL_INT)) {
		LM_ERR("assigning non-int value to msg flags\n");
		return -1;
	}

	msg->flags = val->ri;

	return 0;
}

int pv_set_mflag(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		msg->flags = 0;
		return 0;
	}

	if(!(val->flags & PV_VAL_INT)) {
		LM_ERR("assigning non-int value to msg flag\n");
		return -1;
	}

	if(param->pvn.type != PV_NAME_INTSTR) {
		LM_ERR("missing flag number\n");
		return -1;
	}

	if(val->ri)
		setflag(msg, param->pvn.u.isname.name.n);
	else
		resetflag(msg, param->pvn.u.isname.name.n);

	return 0;
}

int pv_set_sflags(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		setsflagsval(0);
		return 0;
	}

	if(!(val->flags & PV_VAL_INT)) {
		LM_ERR("assigning non-int value to script flags\n");
		return -1;
	}

	setsflagsval((unsigned int)val->ri);

	return 0;
}

int pv_set_sflag(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		setsflagsval(0);
		return 0;
	}

	if(!(val->flags & PV_VAL_INT)) {
		LM_ERR("assigning non-int value to script flags\n");
		return -1;
	}

	if(param->pvn.type != PV_NAME_INTSTR) {
		LM_ERR("missing flag number\n");
		return -1;
	}

	if(val->ri)
		setsflag(param->pvn.u.isname.name.n);
	else
		resetsflag(param->pvn.u.isname.name.n);

	return 0;
}


int pv_set_bflags(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		setbflagsval(0, 0);
		return 0;
	}

	if(!(val->flags & PV_VAL_INT)) {
		LM_ERR("assigning non-int value to branch 0 flags\n");
		return -1;
	}

	setbflagsval(0, (flag_t)val->ri);

	return 0;
}

int pv_set_bflag(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		setbflagsval(0, 0);
		return 0;
	}

	if(!(val->flags & PV_VAL_INT)) {
		LM_ERR("assigning non-int value to branch 0 flags\n");
		return -1;
	}

	if(param->pvn.type != PV_NAME_INTSTR) {
		LM_ERR("missing flag number\n");
		return -1;
	}

	if(val->ri)
		setbflag(0, param->pvn.u.isname.name.n);
	else
		resetbflag(0, param->pvn.u.isname.name.n);

	return 0;
}

int pv_set_xto_attr(struct sip_msg *msg, pv_param_t *param, int op,
		pv_value_t *val, struct to_body *tb, int type)
{
	str buf = {0, 0};
	struct lump *l = NULL;
	int loffset = 0;
	int llen = 0;

	if(msg == NULL || param == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}

	switch(type) {
		case 0: /* uri */
			if(val == NULL || (val->flags & PV_VAL_NULL)) {
				LM_WARN("To header URI cannot be deleted\n");
				return 0;
			}
			if(!(val->flags & PV_VAL_STR)) {
				LM_ERR("attempt to assign non-str value to To header URI\n");
				return -1;
			}

			buf.s = pkg_malloc(val->rs.len);
			if(buf.s == 0) {
				LM_ERR("no more pkg mem\n");
				goto error;
			}
			buf.len = val->rs.len;
			memcpy(buf.s, val->rs.s, val->rs.len);
			loffset = tb->uri.s - msg->buf;
			llen = tb->uri.len;
			break;
		case 1: /* username */
			if(val == NULL || (val->flags & PV_VAL_NULL)) {
				if(tb->parsed_uri.user.len == 0)
					return 0; /* nothing to delete */
				/* delete username */
				loffset = tb->parsed_uri.user.s - msg->buf;
				llen = tb->parsed_uri.user.len;
				/* delete '@' after */
				if(tb->parsed_uri.user.s[tb->parsed_uri.user.len] == '@')
					llen++;
				break;
			}
			if(!(val->flags & PV_VAL_STR)) {
				LM_ERR("attempt to assign non-str value to To header"
					   " display name\n");
				return -1;
			}
			buf.s = pkg_malloc(val->rs.len + 1);
			if(buf.s == 0) {
				LM_ERR("no more pkg mem\n");
				goto error;
			}
			buf.len = val->rs.len;
			memcpy(buf.s, val->rs.s, val->rs.len);
			if(tb->parsed_uri.user.len == 0) {
				l = anchor_lump(msg, tb->parsed_uri.host.s - msg->buf, 0, 0);
				buf.s[buf.len] = '@';
				buf.len++;
			} else {
				/* delete username */
				loffset = tb->parsed_uri.user.s - msg->buf;
				llen = tb->parsed_uri.user.len;
			}
			break;
		case 2: /* domain */
			if(val == NULL || (val->flags & PV_VAL_NULL)) {
				LM_WARN("To header URI domain cannot be deleted\n");
				return 0;
			}
			if(!(val->flags & PV_VAL_STR)) {
				LM_ERR("attempt to assign non-str value to To header"
					   " URI domain\n");
				return -1;
			}
			buf.s = pkg_malloc(val->rs.len);
			if(buf.s == 0) {
				LM_ERR("no more pkg mem\n");
				goto error;
			}
			buf.len = val->rs.len;
			memcpy(buf.s, val->rs.s, val->rs.len);
			loffset = tb->parsed_uri.host.s - msg->buf;
			llen = tb->parsed_uri.host.len;
			break;
		case 3: /* display */
			if(val == NULL || (val->flags & PV_VAL_NULL)) {
				if(tb->display.len == 0)
					return 0; /* nothing to delete */
				/* delete display */
				loffset = tb->display.s - msg->buf;
				llen = tb->display.len;
				/* delete whitespace after */
				if(tb->display.s[tb->display.len] == ' ')
					llen++;
				break;
			}
			if(!(val->flags & PV_VAL_STR)) {
				LM_ERR("attempt to assign non-str value to To header"
					   " display name\n");
				return -1;
			}
			buf.s = pkg_malloc(val->rs.len + 1);
			if(buf.s == 0) {
				LM_ERR("no more pkg mem\n");
				goto error;
			}
			buf.len = val->rs.len;
			memcpy(buf.s, val->rs.s, val->rs.len);
			if(tb->display.len == 0) {
				l = anchor_lump(msg, tb->body.s - msg->buf, 0, 0);
				buf.s[buf.len] = ' ';
				buf.len++;
			} else {
				/* delete display */
				loffset = tb->display.s - msg->buf;
				llen = tb->display.len;
			}
			break;
	}

	/* delete old value */
	if(llen > 0) {
		if((l = del_lump(msg, loffset, llen, 0)) == 0) {
			LM_ERR("failed to delete xto attribute %d\n", type);
			goto error;
		}
	}
	/* set new value when given */
	if(l != NULL && buf.len > 0) {
		if(insert_new_lump_after(l, buf.s, buf.len, 0) == 0) {
			LM_ERR("failed to set xto attribute %d\n", type);
			goto error;
		}
	} else {
		if(buf.s != 0)
			pkg_free(buf.s);
	}
	return 0;

error:
	if(buf.s != 0)
		pkg_free(buf.s);
	return -1;
}

int pv_set_to_attr(struct sip_msg *msg, pv_param_t *param, int op,
		pv_value_t *val, int type)
{
	if(msg == NULL)
		return -1;

	if(msg->to == NULL && parse_headers(msg, HDR_TO_F, 0) == -1) {
		LM_ERR("cannot parse To header\n");
		return -1;
	}
	if(msg->to == NULL || get_to(msg) == NULL) {
		LM_DBG("no To header\n");
		return -1;
	}
	if(parse_to_uri(msg) == NULL) {
		LM_ERR("cannot parse To header URI\n");
		return -1;
	}
	return pv_set_xto_attr(msg, param, op, val, get_to(msg), type);
}

int pv_set_to_uri(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_to_attr(msg, param, op, val, 0);
}

int pv_set_to_username(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_to_attr(msg, param, op, val, 1);
}

int pv_set_to_domain(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_to_attr(msg, param, op, val, 2);
}

int pv_set_to_display(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_to_attr(msg, param, op, val, 3);
}

int pv_set_from_attr(struct sip_msg *msg, pv_param_t *param, int op,
		pv_value_t *val, int type)
{
	if(msg == NULL)
		return -1;

	if(parse_from_header(msg) < 0) {
		LM_ERR("failed to parse From header\n");
		return -1;
	}
	if(parse_from_uri(msg) == NULL) {
		LM_ERR("cannot parse From header URI\n");
		return -1;
	}
	return pv_set_xto_attr(msg, param, op, val, get_from(msg), type);
}

int pv_set_from_uri(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_from_attr(msg, param, op, val, 0);
}

int pv_set_from_username(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_from_attr(msg, param, op, val, 1);
}

int pv_set_from_domain(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_from_attr(msg, param, op, val, 2);
}

int pv_set_from_display(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	return pv_set_from_attr(msg, param, op, val, 3);
}

/********* end PV set functions *********/

int pv_parse_scriptvar_name(pv_spec_p sp, str *in)
{
	if(in == NULL || in->s == NULL || sp == NULL)
		return -1;

	sp->pvp.pvn.type = PV_NAME_PVAR;
	sp->pvp.pvn.u.dname = (void *)add_var(in, VAR_TYPE_ZERO);
	if(sp->pvp.pvn.u.dname == NULL) {
		LM_ERR("cannot register var [%.*s]\n", in->len, in->s);
		return -1;
	}
	return 0;
}

int pv_parse_scriptvarnull_name(pv_spec_p sp, str *in)
{
	if(in == NULL || in->s == NULL || sp == NULL)
		return -1;

	sp->pvp.pvn.type = PV_NAME_PVAR;
	sp->pvp.pvn.u.dname = (void *)add_var(in, VAR_TYPE_NULL);
	if(sp->pvp.pvn.u.dname == NULL) {
		LM_ERR("cannot register var [%.*s]\n", in->len, in->s);
		return -1;
	}
	return 0;
}

int pv_parse_hdr_name(pv_spec_p sp, str *in)
{
	str s;
	char *p;
	pv_spec_p nsp = 0;
	struct hdr_field hdr;

	if(in == NULL || in->s == NULL || sp == NULL)
		return -1;

	p = in->s;
	if(*p == PV_MARKER) {
		nsp = (pv_spec_p)pkg_malloc(sizeof(pv_spec_t));
		if(nsp == NULL) {
			LM_ERR("no more memory\n");
			return -1;
		}
		p = pv_parse_spec(in, nsp);
		if(p == NULL) {
			LM_ERR("invalid name [%.*s]\n", in->len, in->s);
			pv_spec_free(nsp);
			return -1;
		}
		//LM_ERR("dynamic name [%.*s]\n", in->len, in->s);
		//pv_print_spec(nsp);
		sp->pvp.pvn.type = PV_NAME_PVAR;
		sp->pvp.pvn.u.dname = (void *)nsp;
		return 0;
	}

	if(in->len == 1 && in->s[0] == '*') {
		/* match any header name */
		sp->pvp.pvn.type = PV_NAME_INTSTR;
		sp->pvp.pvn.u.isname.type = AVP_NAME_STR;
		sp->pvp.pvn.u.isname.name.s = *in;
		return 0;
	}

	if(in->len >= pv_get_buffer_size() - 1) {
		LM_ERR("name too long\n");
		return -1;
	}
	p = pv_get_buffer();
	memcpy(p, in->s, in->len);
	p[in->len] = ':';
	s.s = p;
	s.len = in->len + 1;

	parse_hname2_short(s.s, s.s + s.len, &hdr);
	if(hdr.type == HDR_ERROR_T) {
		LM_ERR("error parsing header name [%.*s]\n", s.len, s.s);
		goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	if(hdr.type != HDR_OTHER_T && hdr.type != HDR_ERROR_T) {
		LM_DBG("using hdr type (%d) instead of <%.*s>\n", hdr.type, in->len,
				in->s);
		sp->pvp.pvn.u.isname.type = 0;
		sp->pvp.pvn.u.isname.name.n = hdr.type;
	} else {
		sp->pvp.pvn.u.isname.type = AVP_NAME_STR;
		sp->pvp.pvn.u.isname.name.s = *in;
	}
	return 0;
error:
	return -1;
}

int pv_parse_hfl_name(pv_spec_t *sp, str *in)
{
	return pv_parse_hdr_name(sp, in);
}

int pv_parse_cnt_name(pv_spec_p sp, str *in)
{
	pv_spec_t *pv = NULL;

	if(in->s == NULL || in->len <= 0)
		return -1;

	pv = pv_cache_get(in);
	if(pv == NULL) {
		LM_ERR("cannot find pv name [%.*s]\n", in->len, in->s);
		return -1;
	}

	if(pv->type != PVT_AVP && pv->type != PVT_XAVP) {
		LM_ERR("expected avp or xavp name instead of [%.*s]\n", in->len, in->s);
		return -1;
	}

	sp->pvp.pvn.u.dname = (void *)pv;
	sp->pvp.pvn.type = PV_NAME_PVAR;
	return 0;
}


/**
 *
 */
int pv_parse_K_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	switch(in->len) {
		case 2:
			if(strncmp(in->s, "WS", 2) == 0)
				sp->pvp.pvn.u.isname.name.n = 6;
			else
				goto error;
			break;
		case 3:
			if(strncmp(in->s, "UDP", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 2;
			else if(strncmp(in->s, "TCP", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 3;
			else if(strncmp(in->s, "TLS", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 4;
			else if(strncmp(in->s, "WSS", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 7;
			else
				goto error;
			break;
		case 4:
			if(strncmp(in->s, "IPv4", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else if(strncmp(in->s, "INET", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else if(strncmp(in->s, "IPv6", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else if(strncmp(in->s, "SCTP", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 5;
			else
				goto error;
			break;
		case 5:
			if(strncmp(in->s, "INET6", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else
				goto error;
			break;
		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV af key: %.*s\n", in->len, in->s);
	return -1;
}

int pv_parse_flag_param(pv_spec_p sp, str *in)
{
	int n;

	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	if(str2sint(in, &n) != 0) {
		if((n = get_flag_no(in->s, in->len)) < 0) {
			LM_ERR("flag not declared: [%.*s]\n", in->len, in->s);
			return -1;
		}
	} else if(check_flag(n) < 0) {
		LM_ERR("bad flag value: [%.*s]\n", in->len, in->s);
		return -1;
	}

	sp->pvp.pvn.u.isname.name.n = n;
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;
}

/**
 *
 */
int pv_get_K(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	if(param == NULL)
		return -1;

	switch(param->pvn.u.isname.name.n) {
		case 1:
			return pv_get_uintval(msg, param, res, AF_INET6);
		case 2:
			return pv_get_uintval(msg, param, res, PROTO_UDP);
		case 3:
			return pv_get_uintval(msg, param, res, PROTO_TCP);
		case 4:
			return pv_get_uintval(msg, param, res, PROTO_TLS);
		case 5:
			return pv_get_uintval(msg, param, res, PROTO_SCTP);
		case 6:
			return pv_get_uintval(msg, param, res, PROTO_WS);
		case 7:
			return pv_get_uintval(msg, param, res, PROTO_WSS);
		default:
			return pv_get_uintval(msg, param, res, AF_INET);
	}
}

/**
 *
 */
int pv_parse__s_name(pv_spec_p sp, str *in)
{
	pv_elem_t *fmt = NULL;

	if(in->s == NULL || in->len <= 0)
		return -1;
	if(pv_parse_format(in, &fmt) < 0 || fmt == NULL) {
		LM_ERR("wrong format[%.*s]\n", in->len, in->s);
		return -1;
	}
	sp->pvp.pvn.u.dname = (void *)fmt;
	sp->pvp.pvn.type = PV_NAME_OTHER;
	return 0;
}

/**
 *
 */
int pv_get__s(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	str sdata = {0};
	pv_elem_t *fmt = NULL;
	fmt = (pv_elem_t *)param->pvn.u.dname;

	if(fmt == NULL) {
		return pv_get_null(msg, param, res);
	}
	if(pv_printf_s(msg, fmt, &sdata) != 0) {
		LM_ERR("cannot evaluate the string\n");
		return -1;
	}
	return pv_get_strval(msg, param, res, &sdata);
}

/**
 *
 */
int pv_parse_expires_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	switch(in->len) {
		case 3:
			if(strncmp(in->s, "min", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else if(strncmp(in->s, "max", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else
				goto error;
			break;
		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV expires key: %.*s\n", in->len, in->s);
	return -1;
}

/**
 *
 */
int pv_get_expires(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	unsigned int exp_min = 0xffffffff;
	unsigned int exp_max = 0;
	hdr_field_t *hdr;
	contact_t *c;
	contact_t *c0;
	unsigned int eval = 0;
	unsigned int ehdr = 0;
	unsigned int efound = 0;

	if(param == NULL)
		return -1;

	if(parse_headers(msg, HDR_EOH_F, 0) == -1) {
		LM_ERR("failed to parse headers\n");
		return pv_get_null(msg, param, res);
	}

	if(msg->expires) {
		if(!msg->expires->parsed && (parse_expires(msg->expires) < 0)) {
			LM_ERR("failed to parse hdr expires body\n");
			return pv_get_null(msg, param, res);
		}
		ehdr = ((exp_body_t *)msg->expires->parsed)->val;
	}

	if(msg->contact) {
		hdr = msg->contact;
		while(hdr) {
			if(hdr->type == HDR_CONTACT_T) {
				if(!hdr->parsed && (parse_contact(hdr) < 0)) {
					LM_ERR("failed to parse Contact body\n");
					return pv_get_null(msg, param, res);
				}
				c = ((contact_body_t *)hdr->parsed)->contacts;
				while(c) {
					c0 = c->next;
					if(c->expires && c->expires->body.len) {
						if(str2int(&c->expires->body, &eval) < 0) {
							LM_ERR("failed to parse expires\n");
							return pv_get_null(msg, param, res);
						}
						efound = 1;
						if(eval > exp_max)
							exp_max = eval;
						if(eval < exp_min)
							exp_min = eval;
					} else if(msg->expires && msg->expires->parsed) {
						eval = ehdr;
						efound = 1;
						if(eval > exp_max)
							exp_max = eval;
						if(eval < exp_min)
							exp_min = eval;
					}
					c = c0;
				}
			}
			hdr = hdr->next;
		}
	}

	if(efound == 0 && msg->expires && msg->expires->parsed) {
		eval = ehdr;
		efound = 1;
		if(eval > exp_max)
			exp_max = eval;
		if(eval < exp_min)
			exp_min = eval;
	}

	if(efound == 0) {
		return pv_get_null(msg, param, res);
	}

	switch(param->pvn.u.isname.name.n) {
		case 0:
			return pv_get_uintval(msg, param, res, exp_min);
		case 1:
			return pv_get_uintval(msg, param, res, exp_max);
		default:
			return pv_get_null(msg, param, res);
	}
}

/**
 *
 */
int pv_parse_msg_attrs_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	switch(in->len) {
		case 3:
			if(strncmp(in->s, "len", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else if(strncmp(in->s, "buf", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else
				goto error;
			break;
		case 4:
			if(strncmp(in->s, "body", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 2;
			else if(strncmp(in->s, "hdrs", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 3;
			else if(strncmp(in->s, "hdrc", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 6;
			else
				goto error;
			break;
		case 5:
			if(strncmp(in->s, "fline", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 4;
			else if(strncmp(in->s, "fpart", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 7;
			else if(strncmp(in->s, "lpart", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 9;
			else
				goto error;
			break;
		case 8:
			if(strncmp(in->s, "body_len", 8) == 0)
				sp->pvp.pvn.u.isname.name.n = 5;
			else if(strncmp(in->s, "hdrs_len", 8) == 0)
				sp->pvp.pvn.u.isname.name.n = 8;
			else
				goto error;
			break;
		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV expires key: %.*s\n", in->len, in->s);
	return -1;
}

/**
 *
 */
int pv_get_msg_attrs(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	str s;
	hdr_field_t *hdr;
	int n;

	if(msg == NULL)
		return pv_get_null(msg, param, res);

	if(param == NULL)
		return pv_get_null(msg, param, res);

	if(parse_headers(msg, HDR_EOH_F, 0) == -1) {
		LM_ERR("failed to parse headers\n");
		return pv_get_null(msg, param, res);
	}

	switch(param->pvn.u.isname.name.n) {
		case 0: /* length */
			return pv_get_uintval(msg, param, res, msg->len);
		case 1: /* buffer */
			s.s = msg->buf;
			s.len = msg->len;
			return pv_get_strval(msg, param, res, &s);
		case 2: /* body */
			s.s = get_body(msg);
			if(s.s == NULL) {
				LM_DBG("no message body\n");
				return pv_get_null(msg, param, res);
			}
			s.len = msg->buf + msg->len - s.s;
			return pv_get_strval(msg, param, res, &s);
		case 3: /* headers */
			if(msg->unparsed == NULL)
				return pv_get_null(msg, param, res);
			s.s = msg->buf + msg->first_line.len;
			s.len = msg->unparsed - s.s;
			trim(&s);
			return pv_get_strval(msg, param, res, &s);
		case 4: /* first line */
			s.s = msg->buf;
			s.len = msg->first_line.len;
			trim(&s);
			return pv_get_strval(msg, param, res, &s);
		case 5: /* body size */
			s.s = get_body(msg);
			s.len = 0;
			if(s.s != NULL)
				s.len = msg->buf + msg->len - s.s;
			return pv_get_sintval(msg, param, res, s.len);
		case 6: /* headers count */
			n = 0;
			for(hdr = msg->headers; hdr != NULL; hdr = hdr->next) {
				n++;
			}
			return pv_get_sintval(msg, param, res, n);
		case 7: /* first part - first line + headers */
			if(msg->unparsed == NULL)
				return pv_get_null(msg, param, res);
			s.s = msg->buf;
			s.len = msg->unparsed - s.s;
			trim(&s);
			return pv_get_strval(msg, param, res, &s);
		case 8: /* headers size */
			if(msg->unparsed == NULL)
				return pv_get_sintval(msg, param, res, 0);
			s.s = msg->buf + msg->first_line.len;
			s.len = msg->unparsed - s.s;
			trim(&s);
			return pv_get_sintval(msg, param, res, s.len);
		case 9: /* last part - headers + body */
			if(msg->headers == NULL || msg->headers->name.s == NULL)
				return pv_get_null(msg, param, res);
			s.s = msg->headers->name.s;
			s.len = msg->buf + msg->len - s.s;
			return pv_get_strval(msg, param, res, &s);

		default:
			return pv_get_null(msg, param, res);
	}
}

/**
 *
 */
int pv_parse_ksr_attrs_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	switch(in->len) {
		case 3:
			if(strncmp(in->s, "ver", 3) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else
				goto error;
			break;
		case 6:
			if(strncmp(in->s, "verval", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else
				goto error;
			break;
		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV ksr key: %.*s\n", in->len, in->s);
	return -1;
}


/**
 *
 */
int pv_get_ksr_attrs(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	if(param == NULL)
		return pv_get_null(msg, param, res);

	switch(param->pvn.u.isname.name.n) {
		case 0: /* version */
			return pv_get_strzval(msg, param, res, VERSION);
		case 1: /* version value */
			return pv_get_uintval(msg, param, res, VERSIONVAL);

		default:
			return pv_get_null(msg, param, res);
	}
}


/**
 *
 */
int pv_parse_rpl_attrs_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	/* attributes not related to dst of reply get an id starting with 20 */
	switch(in->len) {
		case 4:
			if(strncmp(in->s, "duri", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else
				goto error;
			break;
		case 5:
			if(strncmp(in->s, "dhost", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else if(strncmp(in->s, "dport", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 2;
			else if(strncmp(in->s, "cntrr", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 21;
			else
				goto error;
			break;
		case 6:
			if(strncmp(in->s, "dproto", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 3;
			else if(strncmp(in->s, "cntvia", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 20;
			else
				goto error;
			break;
		case 8:
			if(strncmp(in->s, "dprotoid", 8) == 0)
				sp->pvp.pvn.u.isname.name.n = 4;
			else
				goto error;
			break;

		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV rpl key: %.*s\n", in->len, in->s);
	return -1;
}


/**
 *
 */
int pv_get_rpl_attrs(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	static char rpluribuf[MAX_URI_SIZE];
	str suri = STR_NULL;
	str host = STR_NULL;
	str sproto = STR_NULL;
	unsigned int port = 0;
	hdr_field_t *hf = NULL;
	unsigned int hcnt = 0;

	if(param == NULL) {
		return pv_get_null(msg, param, res);
	}

	if(!IS_SIP_REPLY(msg)) {
		return pv_get_null(msg, param, res);
	}
	if(param->pvn.u.isname.name.n < 20) {
		if(parse_headers(msg, HDR_VIA2_F, 0) == -1) {
			LM_DBG("no 2nd via parsed\n");
			return pv_get_null(msg, param, res);
		}
		if((msg->via2 == 0) || (msg->via2->error != PARSE_OK)) {
			return pv_get_null(msg, param, res);
		}
		if(msg->via2->rport && msg->via2->rport->value.s) {
			LM_DBG("using 'rport'\n");
			if(str2int(&msg->via2->rport->value, &port) < 0) {
				LM_ERR("invalid rport value\n");
				return pv_get_null(msg, param, res);
			}
		}
		if(msg->via2->received) {
			LM_DBG("using 'received'\n");
			host = msg->via2->received->value;
		} else {
			LM_DBG("using via host\n");
			host = msg->via2->host;
		}
		if(port == 0) {
			port = (msg->via2->port) ? msg->via2->port : SIP_PORT;
		}
	}
	switch(param->pvn.u.isname.name.n) {
		case 0: /* dst uri */
			if(get_valid_proto_string(msg->via2->proto, 1, 0, &sproto) < 0) {
				sproto.s = "udp";
				sproto.len = 3;
			}
			suri.len = snprintf(rpluribuf, MAX_URI_SIZE,
					"sip:%.*s:%u;transport=%.*s", host.len, host.s, port,
					sproto.len, sproto.s);
			if(suri.len <= 0 || suri.len >= MAX_URI_SIZE) {
				LM_DBG("building the dst uri failed (%d)\n", suri.len);
				return pv_get_null(msg, param, res);
			}
			suri.s = rpluribuf;
			return pv_get_strval(msg, param, res, &suri);
		case 1: /* dst host */
			return pv_get_strval(msg, param, res, &host);
		case 2: /* dst port */
			return pv_get_uintval(msg, param, res, port);
		case 3: /* dst proto */
			if(get_valid_proto_string(msg->via2->proto, 0, 0, &sproto) < 0) {
				sproto.s = "udp";
				sproto.len = 3;
			}
			return pv_get_strintval(
					msg, param, res, &sproto, (int)msg->via2->proto);
		case 4: /* dst protoid */
			return pv_get_uintval(msg, param, res, msg->via2->proto);
		case 20: /* count of via */
			if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
				LM_DBG("failed to parse sip headers\n");
				return pv_get_null(msg, param, res);
			}
			hcnt = 0;
			for(hf = msg->h_via1; hf != NULL; hf = hf->next) {
				if(hf->type == HDR_VIA_T) {
					via_body_t *vb;
					for(vb = (via_body_t *)hf->parsed; vb != NULL;
							vb = vb->next) {
						hcnt++;
					}
				}
			}
			return pv_get_uintval(msg, param, res, hcnt);
		case 21: /* count of record-route */
			if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
				LM_DBG("failed to parse sip headers\n");
				return pv_get_null(msg, param, res);
			}
			hcnt = 0;
			for(hf = msg->h_via1; hf != NULL; hf = hf->next) {
				if(hf->type == HDR_RECORDROUTE_T) {
					rr_t *rrb;
					if(parse_rr(hf) == -1) {
						LM_ERR("failed parsing rr header\n");
						return pv_get_null(msg, param, res);
					}
					for(rrb = (rr_t *)hf->parsed; rrb != NULL;
							rrb = rrb->next) {
						hcnt++;
					}
				}
			}
			return pv_get_uintval(msg, param, res, hcnt);

		default:
			return pv_get_null(msg, param, res);
	}
}


/**
 *
 */
static cfg_ctx_t *_pv_ccp_ctx = NULL;

/**
 *
 */
int pv_ccp_ctx_init(void)
{
	if(cfg_register_ctx(&_pv_ccp_ctx, NULL)) {
		LM_ERR("failed to register cfg context\n");
		return -1;
	}

	return 0;
}

/**
 *
 */
void pv_free_ccp_attrs_name(void *p)
{
	pv_name_t *pn;

	if(p == NULL) {
		return;
	}

	pn = (pv_name_t *)p;
	if(pn->u.isname.name.s.s) {
		pkg_free(pn->u.isname.name.s.s);
		pn->u.isname.name.s.s = 0;
		pn->u.isname.name.s.len = 0;
	}
}

/**
 *
 */
int pv_parse_ccp_attrs_name(pv_spec_p sp, str *in)
{
	int i;

	if(sp == NULL || in == NULL || in->len <= 0) {
		return -1;
	}

	for(i = 0; i < in->len; i++) {
		if(in->s[i] == '.') {
			break;
		}
	}
	if(i == 0 || i >= in->len - 1) {
		LM_ERR("invalid PV ccp key: %.*s\n", in->len, in->s);
		goto error;
	}

	sp->pvp.pvn.u.isname.name.s.s = (char *)pkg_malloc(in->len + 1);
	if(sp->pvp.pvn.u.isname.name.s.s == NULL) {
		PKG_MEM_ERROR;
		goto error;
	}

	memcpy(sp->pvp.pvn.u.isname.name.s.s, in->s, in->len);
	sp->pvp.pvn.u.isname.name.s.s[in->len] = '\0';
	sp->pvp.pvn.u.isname.name.s.len = in->len;

	sp->pvp.pvn.nfree = pv_free_ccp_attrs_name;

	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	return -1;
}

/**
 *
 */
int pv_get_ccp_attrs(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	str gname = STR_NULL;
	str vname = STR_NULL;
	unsigned int *grpid = NULL;
	str s = STR_NULL;
	char *sep = NULL;
	void *val = NULL;
	unsigned int vtype = 0;
	int ret = 0;

	s = param->pvn.u.isname.name.s;

	sep = q_memrchr(s.s, '.', s.len);
	if(sep == NULL) {
		LM_ERR("invalid pv name [%.*s]\n", s.len, s.s);
		return pv_get_null(msg, param, res);
	}
	gname.s = s.s;
	gname.len = sep - s.s;
	vname.s = sep + 1;
	vname.len = s.s + s.len - sep - 1;

	if(cfg_get_group_id(&gname, &grpid)) {
		LM_ERR("wrong group syntax. Use either 'group', or 'group[id]'\n");
		return pv_get_null(msg, param, res);
		;
	}

	LM_DBG("getting value for variable: %.*s.%.*s\n", gname.len, gname.s,
			vname.len, vname.s);
	ret = cfg_get_by_name(_pv_ccp_ctx, &gname, grpid, &vname, &val, &vtype);
	if(ret < 0) {
		LM_ERR("failed to get the variable [%.*s]\n", s.len, s.s);
		return pv_get_null(msg, param, res);
	} else if(ret > 0) {
		LM_ERR("variable exists, but it is not readable: %.*s\n", s.len, s.s);
		return pv_get_null(msg, param, res);
	}
	switch(vtype) {
		case CFG_VAR_INT:
			return pv_get_sintval(msg, param, res, (int)(long)val);
		case CFG_VAR_STRING:
			return pv_get_strzval(msg, param, res, (char *)val);
		case CFG_VAR_STR:
			return pv_get_strval(msg, param, res, (str *)val);
		case CFG_VAR_POINTER:
			LM_ERR("pointer value for variable [%.*s]\n", s.len, s.s);
			return pv_get_null(msg, param, res);
	}

	LM_ERR("unknown type for variable [%.*s]\n", s.len, s.s);
	return pv_get_null(msg, param, res);
}

/**
 *
 */
int pv_set_ccp_attrs(
		struct sip_msg *msg, pv_param_t *param, int op, pv_value_t *val)
{
	str gname = STR_NULL;
	str vname = STR_NULL;
	unsigned int *grpid = NULL;
	str s = STR_NULL;
	char *sep = NULL;

	if(val == NULL || (val->flags & PV_VAL_NULL)) {
		LM_WARN("ignoring null assignment\n");
		return 0;
	}

	s = param->pvn.u.isname.name.s;

	sep = q_memrchr(s.s, '.', s.len);
	if(sep == NULL) {
		LM_ERR("invalid pv name [%.*s]\n", s.len, s.s);
		return -1;
	}
	gname.s = s.s;
	gname.len = sep - s.s;
	vname.s = sep + 1;
	vname.len = s.s + s.len - sep - 1;

	if(cfg_get_group_id(&gname, &grpid)) {
		LM_ERR("wrong group syntax. Use either 'group', or 'group[id]'\n");
		return -1;
	}

	LM_DBG("setting value for variable: %.*s.%.*s\n", gname.len, gname.s,
			vname.len, vname.s);

	if(val->flags & PV_TYPE_INT) {
		if(cfg_set_now_int(_pv_ccp_ctx, &gname, grpid, &vname, val->ri)) {
			LM_ERR("failed to set int to the variable: [%.*s]\n", s.len, s.s);
			return -1;
		}
	} else {
		if(cfg_set_now_str(_pv_ccp_ctx, &gname, grpid, &vname, &val->rs)) {
			LM_ERR("failed to set str to the variable: [%.*s]\n", s.len, s.s);
			return -1;
		}
	}
	return 0;
}

/**
 *
 */
int pv_parse_via_name(pv_spec_p sp, str *in)
{
	if(sp == NULL || in == NULL || in->len <= 0)
		return -1;

	/* attributes not related to dst of reply get an id starting with 20 */
	switch(in->len) {
		case 1:
			if(in->s[0] == 'i')
				sp->pvp.pvn.u.isname.name.n = 7;
			else
				goto error;
			break;
		case 2:
			if(strncmp(in->s, "oc", 2) == 0)
				sp->pvp.pvn.u.isname.name.n = 9;
			else
				goto error;
			break;
		case 4:
			if(strncmp(in->s, "host", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 0;
			else if(strncmp(in->s, "port", 4) == 0)
				sp->pvp.pvn.u.isname.name.n = 1;
			else
				goto error;
			break;
		case 5:
			if(strncmp(in->s, "proto", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 2;
			else if(strncmp(in->s, "rport", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 5;
			else if(strncmp(in->s, "ocseq", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 12;
			else if(strncmp(in->s, "ocval", 5) == 0)
				sp->pvp.pvn.u.isname.name.n = 14;
			else
				goto error;
			break;
		case 6:
			if(strncmp(in->s, "branch", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 4;
			else if(strncmp(in->s, "params", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 8;
			else if(strncmp(in->s, "ocalgo", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 10;
			else if(strncmp(in->s, "oc-seq", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 12;
			else if(strncmp(in->s, "oc-val", 6) == 0)
				sp->pvp.pvn.u.isname.name.n = 14;
			else
				goto error;
			break;
		case 7:
			if(strncmp(in->s, "protoid", 7) == 0)
				sp->pvp.pvn.u.isname.name.n = 3;
			else if(strncmp(in->s, "oc-algo", 7) == 0)
				sp->pvp.pvn.u.isname.name.n = 10;
			else
				goto error;
			break;
		case 8:
			if(strncmp(in->s, "received", 8) == 0)
				sp->pvp.pvn.u.isname.name.n = 6;
			else
				goto error;
			break;
		case 10:
			if(strncmp(in->s, "ocvalidity", 10) == 0)
				sp->pvp.pvn.u.isname.name.n = 11;
			else
				goto error;
			break;
		case 11:
			if(strncmp(in->s, "oc-validity", 11) == 0)
				sp->pvp.pvn.u.isname.name.n = 11;
			else
				goto error;
			break;
		default:
			goto error;
	}
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;

error:
	LM_ERR("unknown PV rpl key: %.*s\n", in->len, in->s);
	return -1;
}

/**
 *
 */
int pv_get_via_attr(
		sip_msg_t *msg, via_body_t *vb, pv_param_t *param, pv_value_t *res)
{
	via_oc_t ocv;

	if(vb == NULL) {
		LM_DBG("null via header\n");
		return pv_get_null(msg, param, res);
	}

	switch(param->pvn.u.isname.name.n) {
		case 0: /* host */
			if(vb->host.s != NULL && vb->host.len > 0) {
				return pv_get_strval(msg, param, res, &vb->host);
			}
			break;
		case 1: /* port */
			return pv_get_uintval(
					msg, param, res, (vb->port) ? vb->port : SIP_PORT);
		case 2: /* proto */
			return pv_get_strval(msg, param, res, &vb->transport);
		case 3: /* protoid */
			return pv_get_sintval(msg, param, res, (int)vb->proto);
		case 4: /* branch */
			if(vb->branch != NULL && vb->branch->value.len > 0) {
				return pv_get_strval(msg, param, res, &vb->branch->value);
			}
			break;
		case 5: /* rport */
			if(vb->rport != NULL && vb->rport->value.len > 0) {
				return pv_get_strval(msg, param, res, &vb->rport->value);
			}
			break;
		case 6: /* received */
			if(vb->received != NULL && vb->received->value.len > 0) {
				return pv_get_strval(msg, param, res, &vb->received->value);
			}
			break;
		case 7: /* i */
			if(vb->i != NULL && vb->i->value.len > 0) {
				return pv_get_strval(msg, param, res, &vb->i->value);
			}
			break;
		case 8: /* params */
			if(vb->params.s != NULL && vb->params.len > 0) {
				return pv_get_strval(msg, param, res, &vb->params);
			}
			break;
		case 9: /* oc */
			if(parse_via_oc(msg, vb, &ocv) < 0) {
				return pv_get_null(msg, param, res);
			}
			return pv_get_sintval(msg, param, res, ocv.oc);
		case 10: /* oc-algo */
			if(parse_via_oc(msg, vb, &ocv) < 0) {
				return pv_get_null(msg, param, res);
			}
			if(ocv.algo.s != NULL && ocv.algo.len > 0) {
				return pv_get_strval(msg, param, res, &ocv.algo);
			}
			return pv_get_null(msg, param, res);
		case 11: /* oc-validity */
			if(parse_via_oc(msg, vb, &ocv) < 0) {
				return pv_get_null(msg, param, res);
			}
			return pv_get_uintval(msg, param, res, ocv.validity);
		case 12: /* oc-seq */
			if(parse_via_oc(msg, vb, &ocv) < 0) {
				return pv_get_null(msg, param, res);
			}
			return pv_get_uintval(msg, param, res, (unsigned long)ocv.seq);
		case 14: /* oc-val */
			if(parse_via_oc(msg, vb, &ocv) < 0) {
				return pv_get_null(msg, param, res);
			}
			if(ocv.ocval.s != NULL && ocv.ocval.len > 0) {
				return pv_get_strval(msg, param, res, &ocv.ocval);
			}

		default:
			return pv_get_null(msg, param, res);
	}

	return pv_get_null(msg, param, res);
}


/**
 *
 */
int pv_get_via0(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_DBG("failed to parse sip headers\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_via_attr(msg, msg->via1, param, res);
}

/**
 *
 */
int pv_get_via1(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_DBG("failed to parse sip headers\n");
		return pv_get_null(msg, param, res);
	}

	return pv_get_via_attr(msg, msg->via2, param, res);
}

/**
 *
 */
int pv_get_viaZ(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	hdr_field_t *hf = NULL;
	via_body_t *vb = NULL;
	via_body_t *vbZ = NULL;

	if(parse_headers(msg, HDR_EOH_F, 0) < 0) {
		LM_DBG("failed to parse sip headers\n");
		return pv_get_null(msg, param, res);
	}

	vbZ = msg->via1;
	for(hf = msg->h_via1; hf != NULL; hf = hf->next) {
		if(hf->type == HDR_VIA_T) {
			for(vb = (via_body_t *)hf->parsed; vb != NULL; vb = vb->next) {
				vbZ = vb;
			}
		}
	}

	return pv_get_via_attr(msg, vbZ, param, res);
}

/**
 *
 */
int pv_parse_msgbuf_name(pv_spec_t *sp, str *in)
{
	int n;
	char *p;
	pv_spec_t *nsp = 0;

	if(in == NULL || in->s == NULL || in->len <= 0 || sp == NULL) {
		return -1;
	}

	p = in->s;
	if(*p == PV_MARKER) {
		nsp = (pv_spec_p)pkg_malloc(sizeof(pv_spec_t));
		if(nsp == NULL) {
			LM_ERR("no more memory\n");
			return -1;
		}
		p = pv_parse_spec(in, nsp);
		if(p == NULL) {
			LM_ERR("invalid variable [%.*s]\n", in->len, in->s);
			pv_spec_free(nsp);
			return -1;
		}
		//LM_ERR("dynamic name [%.*s]\n", in->len, in->s);
		//pv_print_spec(nsp);
		sp->pvp.pvn.type = PV_NAME_PVAR;
		sp->pvp.pvn.u.dname = (void *)nsp;
		return 0;
	}

	if(str2sint(in, &n) != 0) {
		LM_ERR("bad index value: [%.*s]\n", in->len, in->s);
		return -1;
	}

	sp->pvp.pvn.u.isname.name.n = n;
	sp->pvp.pvn.type = PV_NAME_INTSTR;
	sp->pvp.pvn.u.isname.type = 0;

	return 0;
}

/**
 *
 */
int pv_get_vparam_ival(sip_msg_t *msg, pv_param_t *param)
{
	pv_value_t vval;

	if(param->pvn.type == PV_NAME_PVAR) {
		/* pvar */
		if(pv_get_spec_value(msg, (pv_spec_t *)(param->pvn.u.dname), &vval)
				!= 0) {
			LM_ERR("cannot get name value\n");
			return -1;
		}
		return vval.ri;
	} else {
		return param->pvn.u.isname.name.n;
	}
}

/**
 *
 */
int pv_get_msgbuf(sip_msg_t *msg, pv_param_t *param, pv_value_t *res)
{
	int n;
	static char outmsgbuf[4];

	n = pv_get_vparam_ival(msg, param);

	if(n < 0 || n >= msg->len) {
		LM_ERR("index out of range\n");
		return pv_get_null(msg, param, res);
	}
	outmsgbuf[0] = msg->buf[n];
	outmsgbuf[1] = '\0';
	return pv_get_strlval(msg, param, res, outmsgbuf, 2);
}

/**
 *
 */
int pv_set_msgbuf(sip_msg_t *msg, pv_param_t *param, int op, pv_value_t *val)
{
	int n;

	n = pv_get_vparam_ival(msg, param);

	if(n < 0 || n >= msg->len) {
		LM_ERR("index out of range\n");
		return -1;
	}

	if((val == NULL) || (val->flags & PV_VAL_NULL)) {
		LM_ERR("null value - skipping\n");
		return 1;
	}
	if(!(val->flags & PV_VAL_STR) || val->rs.len <= 0) {
		LM_ERR("error - str value required\n");
		return -1;
	}

	msg->buf[n] = val->rs.s[0];

	return 0;
}
